記述言語：英語  

DOI： 10.1016/j.jdermsci.2022.10.004

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記述言語：英語   掲載種別：研究論文（学術雑誌）  

Dopamine D1 receptors (D1Rs) in the hippocampal dentate gyrus (DG) are essential for antidepressant effects. However, the midbrain dopaminergic neurons, the major source of dopamine in the brain, only sparsely project to DG, suggesting possible activation of DG D1Rs by endogenous substances other than dopamine. We have examined this possibility using electrophysiological and biochemical techniques and found robust activation of D1Rs in mouse DG neurons by noradrenaline. Noradrenaline at the micromolar range potentiated synaptic transmission at the DG output and increased the phosphorylation of protein kinase A substrates in DG via activation of D1Rs and β adrenergic receptors. Neuronal excitation preferentially enhanced noradrenaline-induced synaptic potentiation mediated by D1Rs with minor effects on β-receptor-dependent potentiation. Increased voluntary exercise by wheel running also enhanced noradrenaline-induced, D1R-mediated synaptic potentiation, suggesting a distinct functional role of the noradrenaline-D1R signaling. We then examined the role of this signaling in antidepressant effects using mice exposed to chronic restraint stress. In the stressed mice, an antidepressant acting on the noradrenergic system induced a mature-to-immature change in the DG neuron phenotype, a previously proposed cellular substrate for antidepressant action. This effect was evident only in mice subjected to wheel running and blocked by a D1R antagonist. These results suggest a critical role of noradrenaline-induced activation of D1Rs in antidepressant effects in DG. Experience-dependent regulation of noradrenaline-D1R signaling may determine responsiveness to antidepressant drugs in depressive disorders.

DOI： 10.1073/pnas.2117903119

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：SAGE Publications  

Oxaliplatin, a platinum-based chemotherapeutic agent, frequently causes severe neuropathic pain typically encompassing cold allodynia and long-lasting mechanical allodynia. Endothelin has been shown to modulate nociceptive transmission in a variety of pain disorders. However, the action of endothelin varies greatly depending on many variables, including pain causes, receptor types (endothelin type A (ET_A) and B (ET_B) receptors) and organs (periphery and spinal cord). Therefore, in this study, we investigated the role of endothelin in a Sprague–Dawley rat model of oxaliplatin-induced neuropathic pain. Intraperitoneal administration of bosentan, a dual ET_A/ET_B receptor antagonist, effectively blocked the development or prevented the onset of both cold allodynia and mechanical allodynia. The preventive effects were exclusively mediated by ET_A receptor antagonism. Intrathecal administration of an ET_A receptor antagonist prevented development of long-lasting mechanical allodynia but not cold allodynia. In marked contrast, an intraplantar ET_A receptor antagonist had a suppressive effect on cold allodynia but only had a partial and transient effect on mechanical allodynia. In conclusion, ET_A receptor antagonism effectively prevented long-lasting mechanical allodynia through spinal and peripheral actions, while cold allodynia was prevented through peripheral actions.

DOI： 10.1177/17448069211058004

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その他リンク： http://journals.sagepub.com/doi/full-xml/10.1177/17448069211058004

記述言語：英語   掲載種別：研究論文（学術雑誌）  

Metachromatic leukodystrophy (MLD) is a lysosomal storage disease caused by an arylsulfatase A (ARSA) deficiency and characterized by severe neurological symptoms resulting from demyelination within the central and peripheral nervous systems. We investigated the feasibility and efficacy of intrathecal administration of a type 9 adeno-associated viral vector encoding ARSA (AAV9/ARSA) for the treatment of 6-week-old MLD model mice, which are presymptomatic, and 1-year-old mice, which exhibit neurological abnormalities. Immunohistochemical analysis following AAV9/ARSA administration showed ARSA expression within the brain, with highest activities in the cerebellum and olfactory bulbs. In mice treated at 1 year, alcian blue staining and quantitative analysis revealed significant decreases in stored sulfatide. Behaviorally, mice treated at 1 year showed no improvement in their ability to traverse narrow balance beams as compared to untreated mice. By contrast, MLD mice treated at 6 weeks showed significant decreases in stored sulfatide throughout the entire brain and improved ability to traverse narrow balance beams. These findings suggest intrathecal administration of an AAV9/ARSA vector is a promising approach to treating genetic diseases of the central nervous system, including MLD, though it may be essential to begin therapy before the onset of neurological symptoms.

DOI： 10.1038/s41598-021-99979-2

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記述言語：英語   掲載種別：研究論文（学術雑誌）  

Maternally inherited duplication of chromosome 15q11-q13 (Dup15q) is a pathogenic copy number variation (CNV) associated with autism spectrum disorder (ASD). Recently, paternally derived duplication has also been shown to contribute to the development of ASD. The molecular mechanism underlying paternal Dup15q remains unclear. Here, we conduct genetic and overexpression-based screening and identify Necdin (Ndn) as a driver gene for paternal Dup15q resulting in the development of ASD-like phenotypes in mice. An excess amount of Ndn results in enhanced spine formation and density as well as hyperexcitability of cortical pyramidal neurons. We generate 15q dupΔNdn mice with a normalized copy number of Ndn by excising its one copy from Dup15q mice using a CRISPR-Cas9 system. 15q dupΔNdn mice do not show ASD-like phenotypes and show dendritic spine dynamics and cortical excitatory-inhibitory balance similar to wild type animals. Our study provides an insight into the role of Ndn in paternal 15q duplication and a mouse model of paternal Dup15q syndrome.

DOI： 10.1038/s41467-021-24359-3

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記述言語：英語   掲載種別：研究論文（学術雑誌）  

BACKGROUND: Neovascularization plays a critical role in skin graft survival. Up to date, the lack of specificity to solely track the newly sprouting blood vessels has remained a limiting factor in skin graft transplantation models. Therefore, the authors developed a new model by using Flt1-tdsRed BAC transgenic mice. Flt1 is a vascular endothelial growth factor receptor expressed by sprouting endothelial cells mediating neoangiogenesis. The authors determined whether this model reliably visualizes neovascularization by quantifying tdsRed fluorescence in the graft over 14 days. METHODS: Cross-transplantation of two full-thickness 1 × 1-cm dorsal skin grafts was performed between 6- to 8-week-old male Flt1 mice and KSN/Slc nude mice (n = 5). The percentage of graft area occupied by tdsRed fluorescence in the central and lateral areas of the graft on days 3, 5, 9, and 14 was determined using confocal-laser scanning microscopy. RESULTS: Flt1+ endothelial cells migrating from the transgenic wound bed into the nude graft were first visible in the reticular dermis of the graft center on day 3 (0.5 ± 0.1; p < 0.05). Peak neovascularization was observed on day 9 in the lateral and central parts, increasing by 2- to 4-fold (4.6 ± 0.8 and 4.2 ± 0.9; p < 0.001). Notably, some limited neoangiogenesis was displayed within the Flt grafts on nude mice, particularly in the center. No neovascularization was observed from the wound margins. CONCLUSION: The ability of the Flt1-tdsRed transgenic mouse model to efficiently identify the origin of the skin-graft vasculature and visualize graft neovascularization over time suggests its potential utility for developing techniques that promote graft neovascularization.

DOI： 10.1097/PRS.0000000000008039

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掲載種別：研究論文（学術雑誌）   出版者・発行元：Wiley  

DOI： 10.1111/pcn.13208

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その他リンク： https://onlinelibrary.wiley.com/doi/full-xml/10.1111/pcn.13208

記述言語：英語   掲載種別：研究論文（学術雑誌）  

Cesarean section (C/S) is one way of delivering babies, and is chosen when mothers or babies are facing problems or life-threatening conditions during pregnancy. Many meta-analyses have suggested an etiological relationship between C/S delivery and autism spectrum disorders (ASDs). However, as a risk factor for ASDs, C/S delivery has not yet been well studied. Because C/S deliveries have been increasing, it is very important to investigate the causal association between C/S and ASDs. Here, using three approaches, we showed experimentally that C/S delivery induced ASD-like traits in offspring mice, and that some of these changes were ameliorated by one-time oxytocin (OXT) treatment. Treatment with OXT receptor antagonists before natural delivery also induced ASD-related behaviors. Moreover, wild-type mice born to OXT-KO dams showed similar changes. Thus, insufficient OXT exposure from dams to offspring during delivery may be a trigger for ASD-related behaviors.

DOI： 10.1038/s41598-021-88437-8

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掲載種別：研究論文（学術雑誌）   出版者・発行元：Elsevier BV  

DOI： 10.1016/j.neulet.2021.135716

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掲載種別：研究論文（学術雑誌）   出版者・発行元：Medical Association of Nippon Medical School  

DOI： 10.1272/jnms.jnms.2021_88-607

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記述言語：英語   出版者・発行元：(一社)日本神経学会  

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記述言語：英語   掲載種別：研究論文（学術雑誌）  

Serotonin (5-HT) is a well-known modulator of behavioral, physiological, and emotional functions of the forebrain region. We recently discovered alterations of serotonergic synaptic modulations in both, the prefrontal cortex (PFC) and the somatosensory cortex, in the 15q dup mouse model of autism spectrum disorder (ASD). To further understand the roles of the 5-HT system implicated in developmental disorders such as ASD, comparison with model animals exhibiting different phenotypes may be useful. In this study, we investigated the relationship between sociability and the magnitude of 5-HT1A receptor (5-HT1AR) activation-induced outward currents from layer 5 pyramidal neurons in the PFC, because a mouse model of Williams-Beuren syndrome (WBS; another developmental disorder exhibiting low innate anxiety and high sociability) reportedly showed larger 5-HT-induced currents. To investigate whether the 5-HT1AR activation-induced outward currents are involved in the endophenotype determination of social behavior, we examined 15q dup mice with a phenotype opposite to WBS. We found 5-HT elicited significantly larger outward currents in 15q dup mice than in WT controls, regardless of sociability. In contrast, baclofen-induced GABAB receptor-mediated outward currents were not significantly different between genotypes, although GABAB receptor was coupled to Gi/o as well as 5-HT1A. Further, we found the larger 5-HT1AR-mediated currents in 15q dup mice did not affect the magnitude of inhibitory action of NMDA receptor functions. Taken together, our results provide a potential physiological hallmark for developmental disorders that may involve the imbalance of the neuronal circuity in the PFC.

DOI： 10.1186/s13041-020-00655-9

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記述言語：英語   掲載種別：研究論文（学術雑誌）  

The hippocampal mossy fiber (MF) synapse has been implicated in the pathophysiology and treatment of psychiatric disorders. Alterations of dopaminergic and serotonergic modulations at this synapse are candidate mechanisms underlying antidepressant and other related treatments. However, these monoaminergic modulations share the intracellular signaling pathway at the MF synapse, which implies redundancy in their functions. We here show that endogenous monoamines can potentiate MF synaptic transmission in mouse hippocampal slices by activating the serotonin 5-HT4 receptor. Dopamine receptors were not effectively activated by endogenous agonists, suggesting that the dopaminergic modulation is latent. Electroconvulsive treatment enhanced the 5-HT4 receptor-mediated serotonergic synaptic potentiation specifically at the MF synapse, increased the hippocampal serotonin content, and produced an anxiolytic-like behavioral effect in a 5-HT4 receptor-dependent manner. These results suggest that serotonin plays a predominant role in monoaminergic modulations at the MF synapse. Augmentation of this serotonergic modulation may mediate anxiolytic effects of electroconvulsive treatment.

DOI： 10.1016/j.isci.2020.101025

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記述言語：英語   掲載種別：研究論文（学術雑誌）  

The prefrontal cortex (PFC) has been extensively studied in autism spectrum disorder (ASD) in an attempt to understand the deficits in executive and other higher brain functions related to sociability and emotion. Disruption of the excitatory/inhibitory (E/I) balance of cortical circuits is thought to underlie the pathophysiology of ASD. Recently, we showed that 15q dup mice (a model for ASD with human chromosome 15q11-13 paternal duplication) exhibit disruption of the E/I balance in layer 2/3 pyramidal neurons of the somatosensory cortex due to a decrease in the number of inhibitory synapses. However, whether there is a pathological abnormality in E/I balance in the PFC of 15q dup mice remains unknown. In this study, we found that 15q dup facilitates the activity-induced LTP of glutamate synapses onto layer 5 pyramidal neurons by shifting the E/I balance to an excitatory state, which this was associated with differences in synaptic glutamatergic and GABAergic inputs onto GABAergic fast-spiking interneurons (FSINs). Furthermore, we found that FSIN excitability was well-modulated and regulated by the constitutive activation of 5-HT2 receptors in PFC microcircuits. These results provide new insights into the cellular mechanisms underlying maintenance of optimal E/I balance in the PFC.

DOI： 10.1016/j.neuropharm.2019.107931

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記述言語：英語   掲載種別：研究論文（学術雑誌）  

BACKGROUND: The authors developed a noncontact low-frequency ultrasound device that delivers high-intensity mechanical force based on phased-array technology. It may aid wound healing because it is likely to be associated with lower risks of infection and heat-induced pain compared with conventional ultrasound methods. The authors hypothesized that the microdeformation it induces accelerates wound epithelialization. Its effects on key wound-healing processes (angiogenesis, collagen accumulation, and angiogenesis-related gene transcription) were also examined. METHODS: Immediately after wounding, bilateral acute wounds in C57BL/6J mice were noncontact low-frequency ultrasound- and sham-stimulated for 1 hour/day for 3 consecutive days (10 Hz/90.6 Pa). Wound closure (epithelialization) was recorded every 2 days as the percentage change in wound area relative to baseline. Wound tissue was procured on days 2, 5, 7, and 14 (five to six per time point) and subjected to histopathology with hematoxylin and eosin and Masson trichrome staining, CD31 immunohistochemistry, and quantitative polymerase-chain reaction analysis. RESULTS: Compared to sham-treated wounds, ultrasound/phased-array-treated wounds exhibited significantly accelerated epithelialization (65 ± 27 percent versus 30 ± 33 percent closure), angiogenesis (4.6 ± 1.7 percent versus 2.2 ± 1.0 percent CD31 area), and collagen deposition (44 ± 14 percent versus 28 ± 13 percent collagen density) on days 5, 2, and 5, respectively (all p < 0.05). The expression of Notch ligand delta-like 1 protein (Dll1) and Notch1, which participate in angiogenesis, was transiently enhanced by treatment on days 2 and 5, respectively. CONCLUSIONS: The authors' noncontact low-frequency ultrasound phased-array device improved the wound-healing rate. It was associated with increased early neovascularization that was followed by high levels of collagen-matrix production and epithelialization. The device may expand the mechanotherapeutic proangiogenesis field, thereby helping stimulate a revolution in infected wound care.

DOI： 10.1097/PRS.0000000000006481

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掲載種別：研究論文（学術雑誌）  

DOI： 10.1177/1744806920904462

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DOI： 10.1016/j.omtn.2019.11.011

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DOI： 10.1097/PRS.0000000000006481

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掲載種別：研究論文（学術雑誌）   出版者・発行元：Japanese Association for the Study of Pain  

DOI： 10.11154/pain.34.219

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記述言語：英語   掲載種別：研究論文（学術雑誌）  

BACKGROUND: Neuropathic pain is an intractable chronic pain condition caused by damage to the somatosensory system. Although non-coding RNAs such as microRNAs are important regulators of neuropathic pain, the role of long non-coding RNAs (lncRNAs) is poorly understood. METHODS: This study used a rat model of neuropathic pain induced by lumbar fifth spinal nerve ligation (SNL). Microarray analysis of lncRNAs in the lumbar fifth dorsal root ganglion was performed at day 14 after SNL. Expression levels of H19 were examined by using quantitative PCR. In situ hybridization was used to determine the distribution of H19 at day 14 after SNL. Schwann cells were isolated from peripheral nerves at day 14 after SNL. RESULTS: H19 lncRNA was greatly increased in the L5 dorsal root ganglion at day 14 after SNL and was significantly higher at and after day 4. In the dorsal root ganglion, H19 was detected mainly in non-neuronal cells but not in primary sensory neurons. Consistent with this, H19 expression was upregulated in Schwann cells isolated from peripheral nerves after SNL. CONCLUSION: Increased H19 lncRNA in Schwann cells might be involved in neuropathic pain.

DOI： 10.1272/jnms.JNMS.2018_86-402

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DOI： 10.1007/s00213-019-05337-6

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DOI： 10.1272/jnms.JNMS.2019_86-205

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DOI： 10.2147/PPA.S204465

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DOI： 10.1016/j.neuroscience.2018.10.039

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記述言語：英語   掲載種別：研究論文（学術雑誌）  

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記述言語：英語   掲載種別：研究論文（学術雑誌）  

DOI： 10.1186/s13041-018-0400-9

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DOI： 10.1002/npr2.12033

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DOI： 10.1038/s41598-018-32042-9

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：Springer Verlag  

Background: Tramadol is an analgesic with monoamine reuptake inhibition and μ-opioid receptor activation. Although tramadol has been widely used for treatment of various pain conditions, there is controversy over the risk of abuse potential. We examined the effects of tramadol on the reward system in humans using functional magnetic resonance imaging (fMRI) to assess the potential of tramadol for drug abuse or dependence. Methods: A randomized, double-blind, placebo-controlled, crossover study was conducted for 19 healthy adults under tramadol or placebo. In association with subjective mood questionnaires, monetary incentive delay (MID) task was performed to assess the neural response to reward anticipation during fMRI. Subjective mood measures and blood oxygenation level-dependent (BOLD) signal during gain and loss anticipation were compared between tramadol and placebo. Results: Tramadol significantly reduced anxiety (Z = − 2.513, p = 0.012) and enhanced vigor (Z = − 2.725, p = 0.006) compared with placebo. By Mood Rating Scale, tramadol provoked contented (Z = − 2.316, p = 0.021), relaxed (Z = − 2.236, p = 0.025), and amicable feelings (Z = − 2.015, p = 0.044) as well as increased alertness (Z = − 1.972, p = 0.049) and contentedness domains (Z = − 2.174, p = 0.030) compared with placebo. Several brain regions including nucleus accumbens (NAc) were activated during gain anticipation in the MID task under both tramadol and placebo. Tramadol increased the %BOLD signal change in NAc at +\500 cue significantly more than the placebo (Z = − 2.295, p = 0.022). Conclusion: Tramadol enhances the reward system and thereby may have abuse potential or precipitate drug abuse in human.

DOI： 10.1007/s00213-018-4955-z

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：Nature Publishing Group  

Although mitochondrial and serotonergic dysfunctions have been implicated in the etiology of bipolar disorder (BD), the relationship between these unrelated pathways has not been elucidated. A family of BD and chronic progressive external ophthalmoplegia (CPEO) caused by a mutation of the mitochondrial adenine nucleotide translocator 1 (ANT1, SLC25A4) implicated that ANT1 mutations confer a risk of BD. Here, we sequenced ANT1 in 324 probands of NIMH bipolar disorder pedigrees and identified two BD patients carrying heterozygous loss-of-function mutations. Behavioral analysis of brain specific Ant1 heterozygous conditional knockout (cKO) mice using lntelliCage showed a selective diminution in delay discounting. Delay discounting is the choice of smaller but immediate reward than larger but delayed reward and an index of impulsivity. Diminution of delay discounting suggests an increase in serotonergic activity. This finding was replicated by a 5-choice serial reaction time test. An anatomical screen showed accumulation of COX (cytochrome c oxidase) negative cells in dorsal raphe. Dorsal raphe neurons in the heterozygous cKO showed hyperexcitability, along with enhanced serotonin turnover in the nucleus accumbens and upregulation of Maob in dorsal raphe. These findings altogether suggest that mitochondrial dysfunction as the genetic risk of BD may cause vulnerability to BD by altering serotonergic neurotransmission.

DOI： 10.1038/s41380-018-0074-9

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：Springer New York LLC  

Outputs from the cerebellar nuclei (CN) are important for generating and controlling movement. The activity of CN neurons is controlled not only by excitatory inputs from mossy and climbing fibers and by γ-aminobutyric acid (GABA)-based inhibitory transmission from Purkinje cells in the cerebellar cortex but is also modulated by inputs from other brain regions, including serotonergic fibers that originate in the dorsal raphe nuclei. We examined the modulatory effects of serotonin (5-HT) on GABAergic synapses during development, using rat cerebellar slices. As previously reported, 5-HT presynaptically decreased the amplitudes of stimulation-evoked inhibitory postsynaptic currents (IPSCs) in CN neurons, with this effect being stronger in slices from younger animals (postnatal days [P] 11–13) than in slices from older animals (P19–21). GABA release probabilities accordingly exhibited significant decreases from P11–13 to P19–21. Although there was a strong correlation between the GABA release probability and the magnitude of 5-HT-induced inhibition, manipulating the release probability by changing extracellular Ca2+ concentrations failed to control the extent of 5-HT-induced inhibition. We also found that the IPSCs exhibited slower kinetics at P11–13 than at P19–21. Pharmacological and molecular biological tests revealed that IPSC kinetics were largely determined by the prevalence of α1 subunits within GABAA receptors. In summary, pre- and postsynaptic developmental changes in serotonergic modulation and GABAergic synaptic transmission occur during the second to third postnatal weeks and may significantly contribute to the formation of normal adult cerebellar function.

DOI： 10.1007/s12311-018-0922-9

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：PERGAMON-ELSEVIER SCIENCE LTD  

Prenatal hypoxia induced by transient intrauterine ischemia is a serious clinical problem, and at present, effective treatments are lacking. Currently, it is unknown how prenatal hypoxia affects behaviors in adulthood. Therefore, we developed a mouse model that mimics prenatal hypoxia in humans using uterine artery occlusion in late gestation. We examined whether prenatal hypoxia induces behavioral changes in adult male and female offspring by conducting a series of behavioral tests. In adulthood, longer immobility was observed in the forced swim test in males, whereas females showed decreased inhibition in the pre-pulse inhibition test. We then investigated the effects of two different selective serotonin reuptake inhibitors (SSRIs), fluoxetine (FLX) and escitalopram (ESC), on these behavioral changes. These drugs affect the neurodevelopmental process and have long-term neurological consequences. FLX treatment from postnatal day 3 (P3) to P21 ameliorated the behavioral changes in both male and female mice. In comparison, ESC treatment ameliorated the behavioral changes only in female mice. Neurochemical analysis revealed that dopamine was increased in the female hippocampus, but not in males. Thus, neonatal SSRI treatment decreases dopamine levels in the hippocampus in females selectively. Our findings suggest that prenatal hypoxia is a risk factor for behavioral abnormalities in adulthood, and that neonatal SSRI treatment might have clinical potential for alleviating these long-term behavioral deficits. (C) 2017 IBRO. Published by Elsevier Ltd. All rights reserved.

DOI： 10.1016/j.neuroscience.2017.07.051

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記述言語：英語   出版者・発行元：BMJ PUBLISHING GROUP  

DOI： 10.1136/jnnp-2017-BNPA.55

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記述言語：英語   出版者・発行元：BMJ PUBLISHING GROUP  

DOI： 10.1136/jnnp-2017-BNPA.80

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：SPRINGER  

Modafinil is a wake-promoting agent and has been reported to be effective in improving attention in patients with attentional disturbance. However, neural substrates underlying the modafinil effects on attention are not fully understood.
We employed a functional magnetic resonance imaging (fMRI) study with the attention network test (ANT) task in healthy adults and examined which networks of attention are mainly affected by modafinil and which neural substrates are responsible for the drug effects.
We used a randomized placebo-controlled within-subjects cross-over design. Twenty-three healthy adults participated in two series of an fMRI study, taking either a placebo or modafinil. The participants performed the ANT task, which is designed to measure three distinct attentional networks, alerting, orienting, and executive control, during the fMRI scanning. The effects of modafinil on behavioral performance and regional brain activity were analyzed.
We found that modafinil enhanced alerting performance and showed greater alerting network activity in the left middle and inferior occipital gyri as compared with the placebo. The brain activations in the occipital regions were positively correlated with alerting performance.
Modafinil enhanced alerting performance and increased activation in the occipital lobe in the alerting network possibly relevant to noradrenergic activity during the ANT task. The present study may provide a rationale for the treatment of patients with distinct symptoms of impaired attention.

DOI： 10.1007/s00213-017-4614-9

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：NATURE PUBLISHING GROUP  

miR-17-92 is a microRNA cluster with six distinct members. Here, we show that the miR-17-92 cluster and its individual members modulate chronic neuropathic pain. All cluster members are persistently upregulated in primary sensory neurons after nerve injury. Overexpression of miR-18a, miR-19a, miR-19b and miR-92a cluster members elicits mechanical allodynia in rats, while their blockade alleviates mechanical allodynia in a rat model of neuropathic pain. Plausible targets for the miR-17-92 cluster include genes encoding numerous voltage-gated potassium channels and their modulatory subunits. Single-cell analysis reveals extensive co-expression of miR-17-92 cluster and its predicted targets in primary sensory neurons. miR-17-92 downregulates the expression of potassium channels, and reduced outward potassium currents, in particular A-type currents. Combined application of potassium channel modulators synergistically alleviates mechanical allodynia induced by nerve injury or miR-17-92 overexpression. miR-17-92 cluster appears to cooperatively regulate the function of multiple voltage-gated potassium channel subunits, perpetuating mechanical allodynia.

DOI： 10.1038/ncomms16079

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：AMER ASSOC ADVANCEMENT SCIENCE  

Serotonin is a critical modulator of cortical function, and its metabolism is defective in autism spectrum disorder (ASD) brain. How serotonin metabolism regulates cortical physiology and contributes to the pathological and behavioral symptoms of ASD remains unknown. We show that normal serotonin levels are essential for the maintenance of neocortical excitation/inhibition balance, correct sensory stimulus tuning, and social behavior. Conversely, low serotonin levels in 15q dup mice (a model for ASD with the human 15q11-13 duplication) result in impairment of the same phenotypes. Restoration of normal serotonin levels in 15q dup mice revealed the reversibility of a subset of ASD-related symptoms in the adult. These findings suggest that serotonin may have therapeutic potential for discrete ASD symptoms.

DOI： 10.1126/sciadv.1603001

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：BioMed Central Ltd.  

Electroconvulsive therapy (ECT) is a highly effective and fast-acting treatment for depression. Despite a long history of clinical use, its mechanism of action remains poorly understood. Recently, a novel cellular mechanism of antidepressant action has been proposed: the phenotype of mature brain neurons is transformed to immature-like one by antidepressant drug treatments. We show here that electroconvulsive stimulation (ECS), an animal model of ECT, causes profound changes in maturation-related phenotypes of neurons in the hippocampal dentate gyrus of adult mice. Single ECS immediately reduced expression of mature neuronal markers in almost entire population of dentate granule cells. After ECS treatments, granule cells showed some of physiological properties characteristic of immature granule cells such as higher somatic intrinsic excitability and smaller frequency facilitation at the detate-to-CA3 synapse. The rapid downregulation of maturation markers was suppressed by antagonizing glutamate NMDA receptors, but not by perturbing the serotonergic system. While single ECS caused short-lasting effects, repeated ECS induced stable changes in the maturation-related phenotypes lasting more than 2 weeks along with enhancement of synaptic excitation of granule cells. Augmentation of synaptic inhibition or blockade of NMDA receptors after repeated ECS facilitated regaining the initial mature phenotype, suggesting a role for endogenous neuronal excitation in maintaining the altered maturation-related phenotype probably via NMDA receptor activation. These results suggest that brief neuronal activation by ECS induces "dematuration" of the mature granule cells and that enhanced endogenous excitability is likely to support maintenance of such a demature state. The global increase in neuronal excitability accompanying this process may be relevant to the high efficacy of ECT.

DOI： 10.1186/s13041-017-0288-9

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：WILEY  

BACKGROUND AND PURPOSE
Although oxaliplatin is an effective anti-cancer platinum compound, it can cause painful chronic neuropathy, and its molecular mechanisms are poorly understood. MicroRNAs (miRNAs) are small non-coding RNAs that negatively regulate gene expression in a sequence-specific manner. Although miRNAs have been increasingly recognized as important modulators in a variety of pain conditions, their involvement in chemotherapy-induced neuropathic pain is unknown.
EXPERIMENTAL APPROACH
Oxaliplatin-induced chronic neuropathic pain was induced in rats by i.p. injections of oxaliplatin (2 mg.kg(-1)) for five consecutive days. The expression levels of miR-15b and beta-site amyloid precursor protein-cleaving enzyme 1 (BACE1 also known as beta-secretase 1) were examined in the dorsal root ganglion (DRG). To examine the function of miR-15b, an adeno-associated viral vector encoding miR-15b was injected into the DRG in vivo.
KEY RESULTS
Among the miRNAs examined in the DRG in the late phase of oxaliplatin-induced neuropathic pain, miR-15b was most robustly increased. Our in vitro assay results determined that BACE1 was a target of miR-15b. BACE1 and miR-15b were co-expressed in putative myelinated and unmyelinated DRG neurons. Overexpression of miR-15b in DRG neurons caused mechanical allodynia in association with reduced expression of BACE1. Consistent with these results, a BACE1 inhibitor dose-dependently induced significant mechanical allodynia.
CONCLUSIONS AND IMPLICATIONS
These findings suggest that miR-15b contributes to oxaliplatin-induced chronic neuropathic pain at least in part through the down-regulation of BACE1.

DOI： 10.1111/bph.13698

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：AMER PHYSIOLOGICAL SOC  

Electroconvulsive therapy (ECT) is an established effective treatment for medication-resistant depression with the rapid onset of action. However, its cellular mechanism of action has not been revealed. We have previously shown that chronic antidepressant drug treatments enhance dopamine D-1-like receptor-dependent synaptic potentiation at the hippocampal mossy fiber (MF)-CA3 excitatory synapse. In this study we show that ECT-like treatments in mice also have marked effects on the dopaminergic synaptic modulation. Repeated electroconvulsive stimulation (ECS), an animal model of ECT, strongly enhanced the dopamine-induced synaptic potentiation at the MF synapse in hippocampal slices. Significant enhancement was detectable after the second ECS, and further repetition of ECS up to 11 times monotonously increased the magnitude of enhancement. After repeated ECS, the dopamine-induced synaptic potentiation remained enhanced for more than 4 wk. These synaptic effects of ECS were accompanied by increased expression of the dopamine D-1 receptor gene. Our results demonstrate that robust neuronal activation by ECS induces rapid and long-lasting enhancement of dopamine-induced synaptic potentiation at the MF synapse, likely via increased expression of the D-1 receptor, at least in part. This rapid enhancement of dopamine-induced potentiation at the excitatory synapse may be relevant to the fast-acting antidepressant effect of ECT.
NEW & NOTEWORTHY We show that electroconvulsive therapy (ECT)-like stimulation greatly enhances synaptic potentiation induced by dopamine at the excitatory synapse formed by the hippocampal mossy fiber in mice. The effect of ECT-like stimulation on the dopaminergic modulation was rapidly induced, maintained for more than 4 wk after repeated treatments, and most likely mediated by increased expression of the dopamine D-1 receptor. These effects may be relevant to fast-acting strong antidepressant action of ECT.

DOI： 10.1152/jn.00740.2016

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記述言語：英語   掲載種別：研究論文（学術雑誌）  

DOI： 10.1016/j.dadm.2017.08.002

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：ACADEMIC PRESS INC ELSEVIER SCIENCE  

We investigated the effects of antipsychotics on human induced pluripotent stem cell (hiPSC)-derived neural stem cell (NSC) differentiation. Induction of NSCs from hiPSCs was performed using PSC neural induction medium. Induced NSCs were subsequently cultured in neural differentiation medium containing antipsychotics. Cultured cells were subjected to neural differentiation marker analysis. As previously shown in rodent cells, antipsychotics promoted neural differentiation compared with vehicle treatment. Atypical antipsychotics appear to possess more differentiation induction potential than typical ones. Most NSCs do not express dopamine D2 receptor; however, our in vitro study indicates the clinical potential of antipsychotics could include effects independent of monoamine receptor expression in NSCs. Our study shows NSCs derived from hiPSCs provide opportunity to investigate the underlying direct effect of antipsychotics treatment on NSCs. (C) 2016 Elsevier Inc. All rights reserved.

DOI： 10.1016/j.bbrc.2016.10.102

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記述言語：英語   出版者・発行元：ELSEVIER SCIENCE BV  

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：John Wiley and Sons Inc.  

Background: Analysis of urinary proteins using cellulose acetate membrane electrophoresis (CAME) is a useful and challenging method for the recognition of damaged sites in the kidney. However, protein content of each CAME fraction is still not completely understood. Methods: In this study, an effective method of protein extraction from each band fractionated by CAME was established, which enabled us to examine the extracted proteins by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and mass spectrometry. Results: Proteins were extracted from the gel and analyzed by mass spectrometry. In all, 31 proteins were identified, including 20 urinary proteins that were newly identified in the CAME-based analysis. Conclusion: This methodology was useful for identifying the proteins responsible for creating unique bands on CAME in a urine sample of a patient with drug-induced interstitial nephritis. These findings provide in-depth characterization of urinary protein contents in each CAME fraction.

DOI： 10.1002/jcla.21863

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：WILEY-BLACKWELL  

BackgroundWe examined patients with mild cognitive impairment (MCI) with a history of geriatric depression (GD) and healthy controls (HC) to evaluate the effect of beta-amyloid (A) pathology on the pathology of GD by using [F-18]florbetapir PET.
MethodsThirty-three elderly patients (76.74.2years) and 22 healthy controls (HC; 72.04.5years, average +/- SD) were examined by [F-18]florbetapir positron emission tomography (PET) to quantify the standard uptake value ratio (SUVR) as the degree of amyloid accumulation, by MRI to determine the degree of atrophy, by Mini-Mental State Examination for cognitive functions, and by Geriatric Depression Scale for the severity of depression, and by Clinical Dementia Rating for activity of daily living (ADL). The cut-off value of 1.08 for SUVR was defined as A-positive.
ResultsOf the patients and HC, 39.4% and 27.3%, respectively, were beta-amyloid-positive. The onset age of GD was significantly correlated with SUVR (r=0.44, p&lt;0.01). Compared to patients without A (GD-A), patients with A (GD+A) did not differ in terms of age, cognitive function, severity of depression and ADL, and brain atrophy. GD+A had significantly older average +/- SD age at onset of GD (73.6 +/- 7.1 versus 58.7 +/- 17.8, p&lt;0.01) and significantly shorter average +/- SD time between onset of GD and PET scan day (3.1 +/- 5.2years versus 18.1 +/- 18.6years, p&lt;0.001) than GD-A.
ConclusionsOur results showed that the rate of A positivity was higher in late-onset GD and that onset-age was associated with SUVR, suggesting that the later the onset of GD, the more A pathology affected its onset. Copyright (c) 2014 John Wiley & Sons, Ltd.

DOI： 10.1002/gps.4215

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：WILEY-BLACKWELL  

Background and PurposeThe locus coeruleus (LC) is the principal nucleus containing the noradrenergic neurons and is a major endogenous source of pain modulation in the brain. Glial cell line-derived neurotrophic factor (GDNF), a well-established neurotrophic factor for noradrenergic neurons, is a major pain modulator in the spinal cord and primary sensory neurons. However, it is unknown whether GDNF is involved in pain modulation in the LC.
Experimental ApproachRats with chronic constriction injury (CCI) of the left sciatic nerve were used as a model of neuropathic pain. GDNF was injected into the left LC of rats with CCI for 3 consecutive days and changes in mechanical allodynia and thermal hyperalgesia were assessed. The (2)-adrenoceptor antagonist yohimbine was injected intrathecally to assess the involvement of descending inhibition in GDNF-mediated analgesia. The MEK inhibitor U0126 was used to investigate whether the ERK signalling pathway plays a role in the analgesic effects of GDNF.
Key ResultsBoth mechanical allodynia and thermal hyperalgesia were attenuated 24h after the first GDNF injection. GDNF increased the noradrenaline content in the dorsal spinal cord. The analgesic effects continued for at least 3 days after the last injection. Yohimbine abolished these effects of GDNF. The analgesic effects of GDNF were partly, but significantly, inhibited by prior injection of U0126 into the LC.
Conclusions and ImplicationsGDNF injection into the LC exerts prolonged analgesic effects on neuropathic pain in rats by enhancing descending noradrenergic inhibition.

DOI： 10.1111/bph.13073

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：AMER SOC MICROBIOLOGY  

Shp2 (Src homology 2 domain-containing protein tyrosine phosphatase 2) regulates neural cell differentiation. It is also expressed in postmitotic neurons, however, and mutations of Shp2 are associated with clinical syndromes characterized by mental retardation. Here we show that conditional-knockout (cKO) mice lacking Shp2 specifically in postmitotic forebrain neurons manifest abnormal behavior, including hyperactivity. Novelty-induced expression of immediate-early genes and activation of extracellular-signal-regulated kinase (Erk) were attenuated in the cerebral cortex and hippocampus of Shp2 cKO mice, suggestive of reduced neuronal activity. In contrast, ablation of Shp2 enhanced high-K+-induced Erk activation in both cultured cortical neurons and synaptosomes, whereas it inhibited that induced by brain-derived growth factor in cultured neurons. Posttetanic potentiation and paired-pulse facilitation were attenuated and enhanced, respectively, in hippocampal slices from Shp2 cKO mice. The mutant mice also manifested transient impairment of memory formation in the Morris water maze. Our data suggest that Shp2 contributes to regulation of Erk activation and synaptic plasticity in postmitotic forebrain neurons and thereby controls locomotor activity and memory formation.

DOI： 10.1128/MCB.01339-14

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：WILEY  

ObjectiveWe compared amyloid positron emission tomography (PET) and magnetic resonance imaging (MRI) in subjects clinically diagnosed with Alzheimer's disease (AD), mild cognitive impairment (MCI), and older healthy controls (OHC) in order to test how these imaging biomarkers represent cognitive decline in AD.
MethodsFifteen OHC, 19 patients with MCI, and 19 patients with AD were examined by [F-18]florbetapir PET to quantify the standard uptake value ratio (SUVR) as the degree of amyloid accumulation, by MRI and the voxel-based specific regional analysis system for AD to calculate z-score as the degree of entorhinal cortex atrophy, and by mini-mental state examination (MMSE) and Alzheimer's Disease Assessment Scale-cognitive componentJapanese version (ADAS-Jcog) for cognitive functions.
ResultsBoth cutoff values for measuring AD-like levels of amyloid (1.099 for SUVR) and entorhinal cortex atrophy (1.60 for z-score) were well differentially diagnosed and clinically defined AD from OHC (84.2% for SUVR and 86.7% for z-score). Subgroup analysis based on beta-amyloid positivity revealed that z-score significantly correlated with MMSE (r=-0.626, p&lt;0.01) and ADAS-Jcog (r=0.691, p&lt;0.01) only among subjects with beta-amyloid.
ConclusionsThis is the first study to compare [F-18]florbetapir PET and MRI voxel-based analysis of entorhinal cortex atrophy for AD. Both [F-18]florbetapir PET and MRI detected changes in AD compared with OHC. Considering that entorhinal cortex atrophy correlated well with cognitive decline only among subjects with beta-amyloid, [F-18]florbetapir PET makes it possible to detect AD pathology in the early stage, whereas MRI morphometry for subjects with beta-amyloid provides a good biomarker to assess the severity of AD in the later stage. Copyright (c) 2014 John Wiley & Sons, Ltd.

DOI： 10.1002/gps.4173

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：FRONTIERS RESEARCH FOUNDATION  

Recent neuroimaging studies have demonstrated that Contactin-associated protein-like2 (CNTNAP2) polymorphisms affect left-hemispheric function of language processing in healthy individuals, but no study has investigated the influence of these polymorphisms on right-hemispheric function involved in human voice perception. Further, although recent reports suggest that determination of handedness is influenced by genetic effect, the interaction effect between handedness and CNTNAP2 polymorphisms for brain activity in human voice perception and language processing has not been revealed. We aimed to investigate the interaction effect of handedness and CNTNAP2 polymorphisms in respect to brain function for human voice perception and language processing in healthy individuals. Brain function of 108 healthy volunteers (74 right-handed and 34 non-right-handed) was examined while they were passively listening to reverse sentences (rSEN), identifiable non-vocal sounds (SND), and sentences (SEN). Full factorial design analysis was calculated by using three factors: (1) rs7794745 (A/A or A/T), (2) rs2710102 [G/G or A carrier (A/G and A/A)], and (3) voice-specific response (rSEN or SND). The main effect of rs7794745 (A/A or A/T) was significantly revealed at the right middle frontal gyrus (MFG) and bilateral superior temporal gyrus (STG). This result suggests that rs7794745 genotype affects voice-specific brain function. Furthermore, interaction effect was significantly observed among MFG-STG activations by human voice perception, rs7794745 (A/A or A/T), and handedness. These results suggest that CNTNAP2 polymorphisms could be one of the important factors in the neural development related to vocal communication and language processing in both right-handed and non-right-handed healthy individuals.

DOI： 10.3389/fnbeh.2015.00087

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：MEDICAL ASSOC NIPPON MEDICAL SCH  

Background and Purpose: Autism spectrum disorder (ASD) is a neurodevelopmental disorder with a strong genetic basis. Although anxiety is a common major psychiatric condition in ASD, the underlying mechanisms of the anxiety are poorly understood. In individuals with ASD, evidence indicates a structural abnormality in the amygdala, a key component involved in anxiety and social behavior. Microglia, which are central nervous system-resident immune cells implicated in neurodevelopmental processes, are also reportedly altered in ASD. In the present study, we examined the involvement of microglia in the anxiety-related behaviors of ASD model mouse.
Methods: Mice that have a 6.3-Mb paternal duplication (patDp/+) corresponding to human chromosome 15q11-q13 were used as an ASD model. Thai, a microglial activation marker, was examined in the amygdala using immunofluorescence. Effects of perinatal treatment with minocycline, a microglial modulator, on anxiety-related behaviors were examined in neonatal and adolescent patDp/+ mice.
Results: In patDp/+ mice, Iba1 was decreased in the basolateral amygdala at postnatal day 7, but not at postnatal days 37-40. Perinatal treatment with minocycline restored the lba1 expression and reduced anxiety-related behaviors in patDp/+ adolescent mice.
Conclusions: Perinatal microglia in the basolateral amygdala may play a pathogenic role in the anxiety observed in a mouse model of ASD with duplication of human chromosome 15q11-q13.

DOI： 10.1272/jnms.82.92

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：FRONTIERS RESEARCH FOUNDATION  

Autoantibodies to the smaller isoform of glutamate decarboxylase (GAD) can be found in patients with type 1 diabetes and a number of neurological disorders, including stiff-person syndrome, cerebellar ataxia and limbic encephalitis. The detection of disease-specific autoantibody epitopes led to the hypothesis that distinct GAD autoantibodies may elicit specific neurological phenotypes. We explored the in vitro/in vivo effects of well-characterized monoclonal GAD antibodies. We found that GAD autoantibodies present in patients with stiff person syndrome (n = 7) and cerebellar ataxia (n = 15) recognized an epitope distinct from that recognized by GAD autoantibodies present in patients with type 1 diabetes mellitus p = 10) or limbic encephalitis (n = 4). We demonstrated that the administration of a monoclonal GAD antibody representing this epitope specificity; (1) disrupted in vitro the association of GAD with y-Aminobutyric acid containing synaptic vesicles: (2) depressed the inhibitory synaptic transmission in cerebellar slices with a gradual time course and a lasting suppressive effect; (3) significantly decreased conditioned eyelid responses evoked in mice, with no modification of learning curves in the classical eyeblink-conditioning task; (4) markedly impaired the facilitatory effect exerted by the premotor cortex over the motor cortex in a paired pulse stimulation paradigm; and (5) induced decreased exploratory behavior and impaired locomotor function in rats. These findings support the specific targeting of GAD by its autoantibodies in the pathogenesis of stiff person syndrome and cerebellar ataxia. Therapies of these disorders based on selective removal of such GAD antibodies could be envisioned.

DOI： 10.3389/fnbeh.2015.00078

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記述言語：英語   掲載種別：論文集(書籍)内論文   出版者・発行元：ELSEVIER ACADEMIC PRESS INC  

A cystine-catabolizing enzyme, 3-mercaptopyruvate sulfurtransferase catalyzes the trans-sulfuration reaction of mercaptopyruvate or thiosulfate to thiol-containing compounds or cyanide. During the catalytic process, persulfide is formed at the catalytic site cysteine residue and a sulfur-acceptor substrate donates the outer sulfur of the persulfide to form a new persulfide molecule. Subsequently, the molecule can be reduced by thioredoxin to form hydrogen sulfide. The enzyme is regulated by redox changes via two redox-sensing molecular switches consisting redox-sensitive cysteine residues. One switch is the catalytic cysteine in itself, which is oxidized to form a cysteine-sulfenate resulting in inhibition of catalytic activity. The sulfenate can be reduced by thioredoxin resulting in restoration of the activity. The redox potential of sulfenate is lower than that of glutathione and greater than that of thioredoxin. The other switch involves cysteine residues positioned on the surface of the enzyme. The oxidation the intermolecular disulfide linkage at these cysteine residues, leading to dimer formation, inhibits enzyme activity. On the other hand, reduction-associated monomer formation increases catalytic activity. Thioredoxin reduces the disulfide bond more effectively than dithiothreitol, although the specificity mechanism has not been identified. Congenital defects in this enzyme result in, mercaptolactate-cysteine disulfiduria associated with or without mental retardation. However, the pathogenesis has not been identified. Because 3-mercaptopyruvate sulfurtransferase serves as a cellular antioxidative protein, the other biological functions related to the inhabitant disease are being investigated.

DOI： 10.1016/bs.mie.2014.11.017

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：OXFORD UNIV PRESS  

Changes in preference are inherently subjective and internal psychological events. We have identified brain events that presage ultimate (rather than intervening) choices, and signal the finality of a choice. At the first exposure to a pair of faces, caudate activity reflected the face of final choice, even if an initial choice was different. Furthermore, the orbitofrontal cortex and hippocampus exhibited correlations only when the subject had made a choice that would not change.

DOI： 10.1093/scan/nst147

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：SPRINGER  

Erythropoietin (EPO) is a glycoprotein that stimulates production of red blood cells. After the patents for recombinant EPO (epoetin) expired in 2007, biosimilar erythropoiesis-stimulating agents (ESAs) have become widely circulated in the black market. However, the heterogeneity of ESAs in the post-translational glycosylation hinders the identification of these compounds. In the present study, after cleaving N-linked glycans from tryptic peptides of ESAs with N-glycosidase F, we analyzed the resulting eight glycan-free peptides by liquid chromatography-electrospray ionization-tandem mass spectrometry in the multiple reaction monitoring mode. It has been confirmed that all ESAs studied gave rise to common signature peptides SLTTLLR, VYSNFLR, and YLLEAK. In darbepoetin alfa (DPO), glycan-free tryptic peptide GQALLVNSSQVNETLQLHVDK was detected instead of GQALLVNSSQPWEPLQLHVDK in the epoetin. One of the signature peptides VNFYAWK was found to be significantly suppressed in continuous erythropoietin receptor activator (CERA), indicating pegylation at Lys52. Our method allowed simultaneous identification of ESAs including epoetin, DPO, CERA, and the biosimilars.

DOI： 10.1007/s11419-014-0225-x

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：SPRINGER  

The nucleus accumbens (NAc) works as a key brain structure of the reward system, in which reward-related neural activity is well correlated with dopamine release from mesolimbic dopaminergic neurons.
Since modafinil can modulate dopaminergic transmission through re-uptake inhibition of dopamine, we investigated whether modafinil affects the reward-related brain activity in the NAc in healthy subjects.
Twenty healthy participants underwent two series of functional magnetic resonance imaging while performing monetary incentive delay task in which they were cued to anticipate and respond to a rapidly presented target to gain or avoid losing varying amounts of money, under modafinil or placebo condition. Blood oxygenation-level dependent (BOLD) activation signals during gain and loss anticipations were analyzed in the NAc as an a priori region of interest as well as the whole brain.
Modafinil significantly changed subjective feelings toward positive ones. The activation of BOLD signals was observed during gain anticipation under the placebo and modafinil conditions in the left and bilateral NAc, respectively. The modafinil condition showed significantly higher BOLD signal change at the highest gain (+Ayen500) cue compared to the placebo condition.
The present study showed that modafinil affects reward processing in the NAc in healthy subjects through enhancing more positive anticipation, and it may provide a basis for the use of this drug for treating anhedonia observed in psychiatric disorders.

DOI： 10.1007/s00213-014-3499-0

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：SPRINGER  

Mazindol, an appetite suppressant, inhibits the reuptake of dopamine in the synaptic cleft. It has been considered that mazindol might enhance dopamine transmission in the human brain. However, there has been no study that investigated the extracellular dopamine concentration in vivo.
Using positron emission tomography (PET), we aimed to measure the effect of mazindol on the extracellular dopamine concentration and to evaluate how mazindol affects the dopamine system in the healthy human brain.
Eleven healthy individuals (six males, five females, age 30.9 +/- 4.9 years) were enrolled in this study. Each participant was scanned with [C-11]raclopride on 1 day without any medicine as baseline condition, and on another day with mazindol as drug condition. In the drug condition, participants took mazindol 0.5 mg (N = 5) or 1.5 mg (N = 6) 2 h before the PET scan. Plasma concentrations of mazindol were measured before the injection of [C-11]raclopride, and urine concentrations of mazindol were measured after the scan.
After taking mazindol, the calculated decrease in binding potential (Delta BP) in the striatum was 1.74 % for 0.5 mg and 8.14 for 1.5 mg, and the correlation with the blood concentration of mazindol was significant (P = 0.0016, R (2) = 0.69). Delta BP was not significantly correlated with the urine concentration of mazindol (P = 0.84, R (2) = 0.005).
Mazindol increased the extracellular concentration of dopamine in the human brain, and its effect was dose dependent. A single administration of mazindol, even at usual dosage, elevated dopamine concentration similarly to other addictive drugs, suggesting that the risk of dependence may increase with the mazindol dose.

DOI： 10.1007/s00213-013-3392-2

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：BIOMED CENTRAL LTD  

Background: Voltage-dependent block of the NMDA receptor by Mg2+ is thought to be central to the unique involvement of this receptor in higher brain functions. However, the in vivo role of the Mg2+ block in the mammalian brain has not yet been investigated, because brain-wide loss of the Mg2+ block causes perinatal lethality. In this study, we used a brain-region specific knock-in mouse expressing an NMDA receptor that is defective for the Mg2+ block in order to test its role in neural information processing.
Results: We devised a method to induce a single amino acid substitution (N595Q) in the GluN2A subunit of the NMDA receptor, specifically in the hippocampal dentate gyrus in mice. This mutation reduced the Mg2+ block at the medial perforant path-granule cell synapse and facilitated synaptic potentiation induced by high-frequency stimulation. The mutants had more stable hippocampal place fields in the CA1 than the controls did, and place representation showed lower sensitivity to visual differences. In addition, behavioral tests revealed that the mutants had a spatial working memory deficit.
Conclusions: These results suggest that the Mg2+ block in the dentate gyrus regulates hippocampal spatial information processing by attenuating activity-dependent synaptic potentiation in the dentate gyrus.

DOI： 10.1186/1756-6606-7-44

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：CAMBRIDGE UNIV PRESS  

Tramadol is used for the treatment of pain, and it is generally believed to activate the -opioid receptor and inhibit serotonin (5-HT) and norepinephrine (NE) transporters. Recent findings from animal experiments suggest that 5-HT reuptake inhibition in brain is related to pain reduction. However, there has been no report of 5-HT transporter (5-HTT) occupancy by tramadol at clinical doses in humans. In the present study, we investigated 5-HTT occupancy by tramadol in five subjects receiving various doses of tramadol by using positron emission tomography (PET) scanning with the radioligand [C-11]DASB. Our data showed that mean 5-HTT occupancies in the thalamus by single doses of tramadol were 34.7% at 50mg and 50.2% at 100mg. The estimated median effective dose (ED50) of tramadol was 98.1mg, and the plasma concentration was 0.33g/ml 2h after its administration; 5-HTT occupancy by tramadol was dose-dependent. We estimated 5-HTT occupancy at 78.7% upon taking an upper limit dose (400mg) of tramadol. The results of the present study support the finding that 5-HTT inhibition is involved in the mechanism underlying the analgesic effect of tramadol in humans, and a clinical dose of tramadol sufficiently inhibits 5-HTT reuptake; this inhibition is similar to that shown by selective serotonin reuptake inhibitors (SSRIs).

DOI： 10.1017/S1461145713001764

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記述言語：英語   掲載種別：研究論文（学術雑誌）  

DOI： 10.1017/S1461145713001612

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記述言語：英語   掲載種別：研究論文（学術雑誌）  

DOI： 10.1007/s12149-013-0798-1

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：BIOMED CENTRAL LTD  

Background: Loss of adenomatous polyposis coli (APC) gene function results in constitutive activation of the canonical Wnt pathway and represents the main initiating and rate-limiting event in colorectal tumorigenesis. APC is likely to participate in a wide spectrum of biological functions via its different functional domains and is abundantly expressed in the brain as well as in peripheral tissues. However, the neuronal function of APC is poorly understood. To investigate the functional role of Apc in the central nervous system, we analyzed the neurological phenotypes of Apc(1638T/1638T) mice, which carry a targeted deletion of the 3' terminal third of Apc that does not affect Wnt signaling.
Results: A series of behavioral tests revealed a working memory deficit, increased locomotor activity, reduced anxiety-related behavior, and mildly decreased social interaction in Apc(1638T/1638T) mice. Apc(1638T/1638T) mice showed abnormal morphology of the dendritic spines and impaired long-term potentiation of synaptic transmission in the hippocampal CA1 region. Moreover, Apc(1638T/1638T) mice showed abnormal dopamine and serotonin distribution in the brain. Some of these behavioral and neuronal phenotypes are related to symptoms and endophenotypes of schizophrenia.
Conclusions: Our results demonstrate that the C-terminus of the Apc tumor suppressor plays a critical role in cognitive and neuropsychiatric functioning. This finding suggests a potential functional link between the C-terminus of APC and pathologies of the central nervous system.

DOI： 10.1186/1756-6606-7-21

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：OXFORD UNIV PRESS  

Neuronal damage in the somatosensory system causes intractable chronic neuropathic pain. Plastic changes in sensory neuron excitability are considered the cellular basis of persistent pain. Non-coding microRNAs modulate specific gene translation to impact on diverse cellular functions and their dysregulation causes various diseases. However, their significance in adult neuronal functions and disorders is still poorly understood. Here, we show that miR-7a is a key functional RNA sustaining the late phase of neuropathic pain through regulation of neuronal excitability in rats. In the late phase of neuropathic pain, microarray analysis identified miR-7a as the most robustly decreased microRNA in the injured dorsal root ganglion. Moreover, local induction of miR-7a, using an adeno-associated virus vector, in sensory neurons of injured dorsal root ganglion, suppressed established neuropathic pain. In contrast, miR-7a overexpression had no effect on acute physiological or inflammatory pain. Furthermore, miR-7a downregulation was sufficient to cause pain-related behaviours in intact rats. miR-7a targeted the beta 2 subunit of the voltage-gated sodium channel, and decreased miR-7a associated with neuropathic pain caused increased beta 2 subunit protein expression, independent of messenger RNA levels. Consistently, miR-7a overexpression in primary sensory neurons of injured dorsal root ganglion suppressed increased beta 2 subunit expression and normalized long-lasting hyperexcitability of nociceptive neurons. These findings demonstrate miR-7a downregulation is causally involved in maintenance of neuropathic pain through regulation of neuronal excitability, and miR-7a replenishment offers a novel therapeutic strategy specific for chronic neuropathic pain.

DOI： 10.1093/brain/awt191

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記述言語：英語   掲載種別：研究論文（学術雑誌）  

DOI： 10.1017/S1461145712001678

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DOI： 10.1002/phy2.61

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掲載種別：研究論文（学術雑誌）  

Schnurri-2 (Shn-2), an nuclear factor-κB site-binding protein, tightly binds to the enhancers of major histocompatibility complex class I genes and inflammatory cytokines, which have been shown to harbor common variant single-nucleotide polymorphisms associated with schizophrenia. Although genes related to immunity are implicated in schizophrenia, there has been no study showing that their mutation or knockout (KO) results in schizophrenia. Here, we show that Shn-2 KO mice have behavioral abnormalities that resemble those of schizophrenics. The mutant brain demonstrated multiple schizophrenia-related phenotypes, including transcriptome/proteome changes similar to those of postmortem schizophrenia patients, decreased parvalbumin and GAD67 levels, increased theta power on electroencephalograms, and a thinner cortex. Dentate gyrus granule cells failed to mature in mutants, a previously proposed endophenotype of schizophrenia. Shn-2 KO mice also exhibited mild chronic inflammation of the brain, as evidenced by increased inflammation markers (including GFAP and NADH/NADPH oxidase p22 phox), and genome-wide gene expression patterns similar to various inflammatory conditions. Chronic administration of anti-inflammatory drugs reduced hippocampal GFAP expression, and reversed deficits in working memory and nest-building behaviors in Shn-2 KO mice. These results suggest that genetically induced changes in immune system can be a predisposing factor in schizophrenia. © 2013 American College of Neuropsychopharmacology. All rights reserved.

DOI： 10.1038/npp.2013.38

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：ACADEMIC PRESS INC ELSEVIER SCIENCE  

Neuropathic pain is intractable chronic pain caused by damage to the somatosensory system. Peripheral nerve injury of the primary sensory neurons changes expressions of multiple microRNAs that affect many aspects of cellular functions by regulating specific gene expressions. miR-21, a well-characterized oncogenic miRNA, is consistently upregulated after peripheral nerve injury in the dorsal root ganglion (DRG), where cell bodies of primary sensory neurons exist. However, their causal relationship to the pain is fully unknown. In this study, we therefore investigated the miR-21 expression in the DRGs along with the time course of neuropathic pain and its involvement in the neuropathic pain. Neuropathic pain was induced in rats by specific ligation of the left fifth lumbar spinal nerve. After the injury, miR-21 expression in the injured DRG neurons, but not in the neighboring uninjured DRG neurons, was persistently upregulated following the pain development. Intrathecal administration of interleukin-1 beta also increased the miR-21 expression in the DRG. Both mechanical allodynia and thermal hyperalgesia in the neuropathic pain were attenuated by intrathecal administration of miR-21 inhibitor. miR-21 is specifically upregulated in the injured DRG neurons and causally involved in the late phase of neuropathic pain. Therefore, miR-21 and its modulatory system may be a therapeutic target for intractable chronic neuropathic pain. (c) 2013 Elsevier Inc. All rights reserved.

DOI： 10.1016/j.bbrc.2013.04.089

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：PUBLIC LIBRARY SCIENCE  

The hippocampal dentate gyrus has been implicated in a neuronal basis of antidepressant action. We have recently shown a distinct form of neuronal plasticity induced by the serotonergic antidepressant fluoxetine, that is, a reversal of maturation of the dentate granule cells in adult mice. This "dematuration'' is induced in a large population of dentate neurons and maintained for at least one month after withdrawal of fluoxetine, suggesting long-lasting strong influence of dematuration on brain functioning. However, reliable induction of dematuration required doses of fluoxetine higher than suggested optimal doses for mice (10 to 18 mg/kg/day), which casts doubt on the clinical relevance of this effect. Since our previous studies were performed in naive mice, in the present study, we reexamined effects of fluoxetine using mice treated with chronic corticosterone that model neuroendocrine pathophysiology associated with depression. In corticosterone-treated mice, fluoxetine at 10 mg/kg/day downregulated expression of mature granule cell markers and attenuated strong frequency facilitation at the synapse formed by the granule cell axon mossy fiber, suggesting the induction of granule cell dematuration. In addition, fluoxetine caused marked enhancement of dopaminergic modulation at the mossy fiber synapse. In vehicle-treated mice, however, fluoxetine at this dose had no significant effects. The plasma level of fluoxetine was comparable to that in patients taking chronic fluoxetine, and corticosterone did not affect it. These results indicate that corticosterone facilitates fluoxetine-induced plastic changes in the dentate granule cells. Our finding may provide insight into neuronal mechanisms underlying enhanced responsiveness to antidepressant medication in certain pathological conditions.

DOI： 10.1371/journal.pone.0063662

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記述言語：英語   掲載種別：研究論文（学術雑誌）  

The dorsal raphe nucleus (DRN) is the origin of the central serotonin [5-hydroxytryptamine (5-HT)] system and plays an important role in the regulation of many physiological functions such as sleep/arousal, food intake and mood. In order to understand the regulatory mechanisms of 5-HT system, characterization of the types of neurons is necessary. We performed electrophysiological recordings in acute slices of glutamate decarboxylase 67-green fluorescent protein knock-in mice. We utilized this mouse to identify visually GABAergic cells. Especially, we examined postsynaptic responses mediated by 5-HT receptors between GABAergic and serotonergic cells in the DRN. Various current responses were elicited by 5-HT and 5-HT1A or 5-HT2A/2C receptor agonists in GABAergic cells. These results suggested that multiple 5-HT receptor subtypes overlap on GABAergic cells, and their combination might control 5-HT cells. Understanding the postsynaptic 5-HT feedback mechanisms may help to elucidate the 5-HT neurotransmitter system and develop novel therapeutic approaches. © 2012 The Author(s).

DOI： 10.1007/s12576-012-0250-7

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記述言語：英語   掲載種別：研究論文（学術雑誌）  

Human mercaptolactate-cysteine disulfiduria (MCDU) was first recognized and reported in 1968. Most cases of MCDU are associated with mental retardation, while the pathogenesis remains unknown. To investigate it, we generated homozygous 3-mercaptopyruvate sulfurtransferase (MST: EC 2.8.1.2) knockout (KO) mice using C57BL/6 embryonic stem cells as an animal model. The MST-KO mice showed significantly increased anxiety-like behaviors with an increase in serotonin level in the prefrontal cortex (PFC), but not with abnormal morphological changes in the brain. MCDU can be caused by loss in the functional diversity of MST; first, MST functions as an antioxidant protein. MST possessing 2 redox-sensing molecular switches maintains cellular redox homeostasis. Second, MST can produce H2S (or HS(-)). Third, MST can also produce SOx. It is concluded that behavioral abnormality in MST-KO mice is caused by MST function defects such as an antioxidant insufficiency or a new transducer, H2S (or HS(-)) and/or SOx deficiency.

DOI： 10.1038/srep01986

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：BIOMED CENTRAL LTD  

Background: Postsynaptic density (PSD) 95-like membrane-associated guanylate kinases (PSD-MAGUKs) are scaffold proteins in PSDs that cluster signaling molecules near NMDA receptors. PSD-MAGUKs share a common domain structure, including three PDZ (PDZ1/2/3) domains in their N-terminus. While multiple domains enable the PSD-MAGUKs to bind various ligands, the contribution of each PDZ domain to synaptic organization and function is not fully understood. Here, we focused on the PDZ1/2 domains of PSD-95 that bind NMDA-type receptors, and studied the specific roles of the ligand binding of these domains in the assembly of PSD proteins, synaptic properties of hippocampal neurons, and behavior, using ligand binding-deficient PSD-95 cDNA knockin (KI) mice.
Results: The KI mice showed decreased accumulation of mutant PSD-95, PSD-93 and AMPA receptor subunits in the PSD fraction of the hippocampus. In the hippocampal CA1 region of young KI mice, basal synaptic efficacy was reduced and long-term potentiation (LTP) was enhanced with intact long-term depression. In adult KI mice, there was no significant change in the magnitude of LTP in CA1, but robustly enhanced LTP was induced at the medial perforant path-dentate gyrus synapses, suggesting that PSD-95 has an age-and subregion-dependent role. In a battery of behavioral tests, KI mice showed markedly abnormal anxiety-like behavior, impaired spatial reference and working memory, and impaired remote memory and pattern separation in fear conditioning test.
Conclusions: These findings reveal that PSD-95 including its ligand binding of the PDZ1/2 domains controls the synaptic clustering of PSD-MAGUKs and AMPA receptors, which may have an essential role in regulating hippocampal synaptic transmission, plasticity, and hippocampus-dependent behavior.

DOI： 10.1186/1756-6606-5-43

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記述言語：英語   出版者・発行元：MEDICAL ASSOC NIPPON MEDICAL SCH  

DOI： 10.1272/jnms.79.318

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：PERGAMON-ELSEVIER SCIENCE LTD  

Many psychiatric disorders emerge after adolescence. Among a variety of predisposing factors, prenatal stress has been thought to cause the symptoms of anxiety disorders. We recently reported that prenatal dexamethasone (DEX) exposure, which mimics some aspects of prenatal stress, induced anxiety-related behaviors in male offspring when they reached adulthood. Before the emergence of behavioral changes, abnormalities occurred in the hypothalamic pituitary adrenal axis during postnatal development. In the present study, we found abnormalities in serotonin (5-HT) signaling, including decreased expression of 5-HT1A receptor (5-HT1A-R) mRNA in the medial prefrontal cortex (mPFC) and 5-HT content in the hippocampus at postnatal week (PW) 4. These results support using early therapeutic interventions with serotonergic drugs to prevent late-emerging anxiety symptoms. To test this hypothesis, we treated rat pups born to DEX-administered mothers with fluoxetine (FLX), a selective serotonin reuptake inhibitor commonly used as an anti-anxiety medication, via breast milk from postnatal day (PD) 2-21. Anxiety-related behaviors examined at PW11-13 were not observed in the prenatally DEX-exposed offspring that were treated with FLX. Likewise, FLX increased 5-HT concentrations in the mPFC and ventral hippocampus at PW3 and normalized 5-HT1A-R mRNA concentrations in the mPFC at PW4. The decrease in brain-derived neurotrophic factor (BDNF) protein in the mPFC and dorsal hippocampus was also restored at PW4. Furthermore, administration of the 5-HT1A-R full agonist (R)-(+)-8-hydroxy-2-(di-n-propylamino)tetralin from PD2 to 21 also prevented the emergence of behavioral abnormalities in the prenatally DEX-exposed offspring, implicating the involvement of 5-HT1A-Rs in the neonatal FLX effect. Collectively, an early pharmacological intervention to normalize serotonergic transmission effectively suppressed the emergence of symptoms induced by prenatal DEX exposure in rats. (C) 2012 Elsevier Ltd. All rights reserved.

DOI： 10.1016/j.neuropharm.2012.03.027

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BACKGROUND AND PURPOSE The locus coeruleus (LC) is a major source of noradrenergic projections to the dorsal spinal cord, and thereby plays an important role in the modulation of nociceptive information. The LC receives inputs from substance P (SP)-containing fibres from other regions, and expresses the NK 1 tachykinin receptor, a functional receptor for SP. In the present study, we investigated the roles of SP in the LC in neuropathic pain. EXPERIMENTAL APPROACH Chronic constriction injury (CCI) of the left sciatic nerve was performed in rats to induce neuropathic pain. After development of neuropathic pain, SP was injected into the LC and the nocifensive behaviours were assessed. The involvement of noradrenergic descending inhibition in SP-induced analgesia was examined by i.t. administration of yohimbine, an α 2-adrenoceptor antagonist. NK 1 receptor expression in the LC was examined by immunohistochemistry. KEY RESULTS In CCI rats, mechanical allodynia was alleviated by SP injection into the LC. These effects were abolished by prior injection of WIN 51708, an NK 1 receptor antagonist, into the LC or i.t. treatment with yohimbine. NK 1 receptor-like immunoreactivity was observed in noradrenergic neurons throughout the LC in intact rats, and remained unchanged after CCI. CONCLUSION AND IMPLICATIONS SP in the LC exerted analgesic effects on neuropathic pain through NK 1 receptor activation and resulted in facilitation of spinal noradrenergic transmission. Accordingly, manipulation of the SP/NK 1 receptor signalling pathway in the LC may be a promising strategy for effective treatment of neuropathic pain. © 2011 The British Pharmacological Society.

DOI： 10.1111/j.1476-5381.2011.01820.x

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記述言語：英語   掲載種別：研究論文（学術雑誌）  

DOI： 10.1038/npp.2011.335

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：MEDICAL ASSOC NIPPON MEDICAL SCH  

Rheumatoid arthritis (RA) is a chronic multisystem disease characterized by persistent joint inflammation associated with severe pain. Because RA is an immune-mediated joint disease and because type II collagen is considered an autoantigen, rodent models of arthritis using collagen type II-specific monoclonal antibodies are valuable for studying the pathogenesis of autoimmune arthritis and for evaluating therapeutic strategies. The tachykinin family peptides. substance P (SP) and hemokinin-1 (HK-1), are expressed in the nervous systems and in many peripheral organs and immunocompetent cells and activate tachykinin NK1 receptors with similar affinities. NK1 receptors are involved in the inflammation and hyperalgesia associated with a variety of inflammatory diseases. In the present study, we examined the involvement of SP and HK-1 in the joint inflammation and hyperalgesia in a collagen antibody-induced arthritis (CAIA) model in mice. The messenger RNA expression levels of the TAC1 gene encoding SP and of the TAC4 gene encoding HK-1 were decreased in the dorsal root ganglia and spinal cord at the peak of the inflammatory symptoms in CAIA. Systemic injection of an NK1 receptor antagonist. WIN 51708. significantly inhibited the joint swelling, but not the mechanical allodynia. on day 7 in CAIA mice. The messenger RNA expression levels of TAC1 and TAC4 in the dorsal root ganglia and dorsal spinal cord were unaffected by treatment with WIN 51708. These findings suggest that tachykinins and NK1 receptors play a key role in joint inflammation, rather than in nociceptive sensitization, in CAIA. (J Nippon Med Sch 2012; 79: 129-138)

DOI： 10.1272/jnms.79.129

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記述言語：英語   掲載種別：研究論文（学術雑誌）  

DOI： 10.1371/journal.pone.0032268

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：PUBLIC LIBRARY SCIENCE  

Inhibitory interneurons in the cerebellar granular layer are more heterogeneous than traditionally depicted. In contrast to Golgi cells, which are ubiquitously distributed in the granular layer, small fusiform Lugaro cells and globular cells are located underneath the Purkinje cell layer and small in number. Globular cells have not been characterized physiologically. Here, using cerebellar slices obtained from a strain of gene-manipulated mice expressing GFP specifically in GABAergic neurons, we morphologically identified globular cells, and compared their synaptic activity and monoaminergic influence of their electrical activity with those of small Golgi cells and small fusiform Lugaro cells. Globular cells were characterized by prominent IPSCs together with monosynaptic inputs from the axon collaterals of Purkinje cells, whereas small Golgi cells or small fusiform Lugaro cells displayed fewer and smaller spontaneous IPSCs. Globular cells were silent at rest and fired spike discharges in response to application of either serotonin (5-HT) or noradrenaline. The two monoamines also facilitated small Golgi cell firing, but only 5-HT elicited firing in small fusiform Lugaro cells. Furthermore, globular cells likely received excitatory monosynaptic inputs through mossy fibers. Because globular cells project their axons long in the transversal direction, the neuronal circuit that includes interplay between Purkinje cells and globular cells could regulate Purkinje cell activity in different microzones under the influence of monoamines and mossy fiber inputs, suggesting that globular cells likely play a unique modulatory role in cerebellar motor control.

DOI： 10.1371/journal.pone.0029663

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：CHURCHILL LIVINGSTONE  

Glial cell line-derived neurotrophic factor (GDNF), a survival-promoting factor for a subset of nociceptive small-diameter neurons, has been shown to exert analgesic effects on neuropathic pain. However, its detailed mechanisms of action are still unknown. In the present study, we investigated the site-specific analgesic effects of GDNF in the neuropathic pain state using lentiviral vector-mediated GDNF overexpression in mice with left fifth lumbar (15) spinal nerve ligation (SNL) as a neuropathic pain model. A lentiviral vector expressing both GDNF and enhanced green fluorescent protein (EGFP) was constructed and injected into the left dorsal spinal cord, uninjured fourth lumbar (14) dorsal root ganglion (DRG), injured 15 DRG, or plantar skin of mice. In SNL mice, injection of the GDNF-EGFP-expressing lentivirus into the dorsal spinal cord or uninjured L4 DRG partially but significantly reduced the mechanical allodynia in association with an increase in GDNF protein expression in each virus injection site, whereas injection into the injured 15 DRG or plantar skin had no effects. These results suggest that GDNF exerts its analgesic effects in the neuropathic pain state by acting on the central terminals of uninjured DRG neurons and/or on the spinal cells targeted by the uninjured DRG neurons.
Perspective: This article shows that GDNF exerts its analgesic effects on neuropathic pain by acting on the central terminals of uninjured DRG neurons and/or on the spinal cells targeted by these neurons. Therefore, research focusing on these GDNF-dependent neurons in the uninjured DRG would provide a new strategy for treating neuropathic pain. (C) 2011 by the American Pain Society

DOI： 10.1016/j.jpain.2011.04.003

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：JAPANESE PHARMACOLOGICAL SOC  

Glycyrrhetinic acid (GA), an aglycone of glycyrrhizin, isolated from the licorice root (Glycyrrhizia), and its semi-synthetic derivatives have a wide range of pharmacological effects. To investigate whether GA derivatives may be used as a new class of analgesics, we examined the effects of these compounds on human tachykinin receptors expressed in CHO-K1 cells. Among the GA derivatives examined, the disodium salt of olean-11,13(18)-dien-3 beta,30-O-dihemiphthalate inhibited the mobilization of [Ca(2+)], induced by substance P, neurokinin A, and neurokinin B in CHO-K1 cells expressing the human NK(1), NK(2), and NK(3) tachykinin receptors, respectively. In an inflammatory pain model, Compound 5 suppressed the capsaicin-induced flinching behavior in a dose-dependent manner. Compound 5 was also effective in suppressing pain-related behaviors in the late phase of the formalin test and reducing thermal hyperalgesia in the neuropathic pain state caused by sciatic nerve injury. Collectively, Compound 5 may be an analgesic candidate via tachykinin receptor antagonism.

DOI： 10.1254/jphs.11116FP

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記述言語：英語   掲載種別：研究論文（学術雑誌）  

DOI： 10.1016/j.ejphar.2011.06.037

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：ELSEVIER IRELAND LTD  

Tachykinin NK-2 receptor, a cognate receptor for neurokinin A, expressed in the brain has been suggested as a new target for the treatment of psychiatric disorders. In rodents, treatment with NK-2 receptor agonists causes anxiogenic effects, while NK-2 receptor antagonists show anxiolytic and antidepressant-like effects. However, information about the distribution and functions of NK-2 receptors in the central nervous system (CNS) in primates is still lacking. Here, we examined the distribution and pharmacological profile of NK-2 receptors in the rhesus monkey (Macaca mulatta) to clarify the molecular basis of NK-2-mediated tachykininergic functions in the primate CNS. NK-2 receptors cloned from the rhesus monkey brain showed similar pharmacological properties to those of human NK-2 receptors. Substantial expression levels of NK-2 mRNA were observed in all the brain regions examined, including areas pertinent to the emotional networks such as the prefrontal cortex, cingulate cortex and amygdala. These findings suggest that NK-2 receptors may play important roles in the pathophysiology of psychiatric disorders. (C) 2011 Elsevier Ireland Ltd. All rights reserved.

DOI： 10.1016/j.neulet.2011.07.057

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：WILEY-BLACKWELL  

Inflammatory skin disorder aggravates when a horrific memory is evoked, but the mechanism of this effect is unclear. The objective of the present study was to examine the effects of evocation of a horrific memory on the skin and mast cells in an animal model. A sound stimulus linked to an electric shock was given to C57BL/6 mice (7-week old, males). One, 3 and 5 days later, the mice received the sound stimulus again. The reactions of mice that received the initial sound stimulus were compared with those of mice that did not receive the initial stimulus. A freezing phenomenon was observed when the sound stimulus was given to mice that received the initial stimulus, which indicated evocation of a past memory of fear. The degranulation rate of dermal mast cells and the length of substance P (SP)-positive nerve fibers of the skin significantly increased on days 1 and 3, the SP level decreased significantly, and the number of SP-expressing cells in the dorsal root ganglion significantly increased on day 1. These findings suggest that prior experience of severe stress linked to a stimulus subsequently evokes fear associated with the same stimulus and results in activation of dermal mast cells and skin nerves.

DOI： 10.1111/j.1346-8138.2010.01045.x

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記述言語：英語   掲載種別：研究論文（学術雑誌）  

DOI： 10.1016/j.neures.2011.01.003

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：BIOMED CENTRAL LTD  

Background: Selective serotonin reuptake inhibitors (SSRIs) are widely used to treat mood and anxiety disorders. However, neuronal bases for both beneficial and adverse effects of SSRIs remain poorly understood. We have recently shown that the SSRI fluoxetine can reverse the state of maturation of hippocampal granule cells in adult mice. The granule cell "dematuration" is induced in a large population of granule cells, and greatly changes functional and physiological properties of these cells. Here we show that this unique form of neuronal plasticity is correlated with a distinct change in behavior of mice.
Results: We chronically treated adult male mice with fluoxetine, and examined its effect on several forms of behavior of mice. During fluoxetine treatments, mice showed a marked increase in day-to-day fluctuations of home cage activity levels that was characterized by occasional switching between hypoactivity and hyperactivity within a few days. This destabilized cage activity was accompanied by increased anxiety-related behaviors and could be observed up to 4 weeks after withdrawal from fluoxetine. As reported previously, the granule cell dematuration by fluoxetine includes a reduction of synaptic facilitation at the granule cell output, mossy fiber, synapse to the juvenile level. Mossy fiber synaptic facilitation examined electrophysiologically in acute hippocampal slices also remained suppressed after fluoxetine withdrawal and significantly correlated with the fluctuation of cage activity levels in individual mice. Furthermore, in mice lacking the 5-HT4 receptor, in which the granule cell dematuration has been shown to be attenuated, fluoxetine had no significant effect on the fluctuation of cage activity levels.
Conclusions: Our results demonstrate that the SSRI fluoxetine can induce marked day-to-day changes in activity levels of mice in the familiar environment, and that the dematuration of the hippocampal granule cells is closely associated with the expression of this destabilized behavior. Based on these results, we propose that the granule cell dematuration can be a potential cellular basis underlying switching-like changes in the behavioral state associated with SSRI treatments.

DOI： 10.1186/1756-6606-4-12

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：PUBLIC LIBRARY SCIENCE  

Dysbindin-1 (dystrobrevin-binding protein 1, DTNBP1) is one of the promising schizophrenia susceptibility genes. Dysbindin protein is abundantly expressed in synaptic regions of the hippocampus, including the terminal field of the mossy fibers, and this hippocampal expression of dysbindin is strongly reduced in patients with schizophrenia. In the present study, we examined the functional role of dysbindin in hippocampal mossy fiber-CA3 synaptic transmission and its modulation using the sandy mouse, a spontaneous mutant with deletion in the dysbindin gene. Electrophysiological recordings were made in hippocampal slices prepared from adult male sandy mice and their wild-type littermates. Basic properties of the mossy fiber synaptic transmission in the mutant mice were generally normal except for slightly reduced frequency facilitation. Serotonin and dopamine, two major neuromodulators implicated in the pathophysiology of schizophrenia, can potentiate mossy fiber synaptic transmission probably via an increase in cAMP levels. Synaptic potentiation induced by serotonin and dopamine was very variable in magnitude in the mutant mice, with some mice showing prominent enhancement as compared with the wild-type mice. In addition, the magnitude of potentiation induced by these monoamines significantly correlated with each other in the mutant mice, indicating that a subpopulation of sandy mice has marked hypersensitivity to both serotonin and dopamine. While direct activation of the cAMP cascade by forskolin induced robust synaptic potentiation in both wildtype and mutant mice, this forskolin-induced potentaition correlated in magnitude with the serotonin-induced potentiation only in the mutant mice, suggesting a possible change in coupling of receptor activation to downstream signaling. These results suggest that the dysbindin deficiency could be an essential genetic factor that causes synaptic hypersensitivity to dopamine and serotonin. The altered monoaminergic modulation at the mossy fiber synapse could be a candidate pathophysiological basis for impairment of hippocampus-dependent brain functions in schizophrenia.

DOI： 10.1371/journal.pone.0018113

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：BIOMED CENTRAL LTD  

Background: Local anesthetics alleviate neuropathic pain in some cases in clinical practice, and exhibit longer durations of action than those predicted on the basis of the pharmacokinetics of their blocking effects on voltage-dependent sodium channels. Therefore, local anesthetics may contribute to additional mechanisms for reversal of the sensitization of nociceptive pathways that occurs in the neuropathic pain state. In recent years, spinal glial cells, microglia and astrocytes, have been shown to play critical roles in neuropathic pain, but their participation in the analgesic effects of local anesthetics remains largely unknown.
Results: Repetitive epidural administration of ropivacaine reduced the hyperalgesia induced by chronic constrictive injury of the sciatic nerve. Concomitantly with this analgesia, ropivacaine suppressed the increases in the immunoreactivities of CD11b and glial fibrillary acidic protein in the dorsal spinal cord, as markers of activated microglia and astrocytes, respectively. In addition, epidural administration of a TrkA-IgG fusion protein that blocks the action of nerve growth factor (NGF), which was upregulated by ropivacaine in the dorsal root ganglion, prevented the inhibitory effect of ropivacaine on microglia, but not astrocytes. The blockade of NGF action also abolished the analgesic effect of ropivacaine on neuropathic pain.
Conclusions: Ropivacaine provides prolonged analgesia possibly by suppressing microglial activation in an NGF-dependent manner and astrocyte activation in an NGF-independent manner in the dorsal spinal cord. Local anesthetics, including ropivacaine, may represent a new approach for glial cell inhibition and, therefore, therapeutic strategies for neuropathic pain.

DOI： 10.1186/1744-8069-7-2

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出版者・発行元：Elsevier  

DOI： 10.1016/j.neuroscience.2010.10.037

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：WILEY-BLACKWELL  

Aim: The aim of the present study was to investigate the effects of acute paroxetine administration on brain activity related to motivation.
Methods: Sixteen healthy subjects participated in a randomized, single-blind, no-drug/placebo-controlled, cross-over study. After administration of no drug, placebo or paroxetine (selective serotonin reuptake inhibitor; 20 mg), subjects underwent functional magnetic resonance imaging while performing a monetary incentive delay task. We analyzed the differences in brain activities of the reward anticipation/motor preparation period that are subject to motivational modulation. For this purpose, we subdivided the incentive trials on the basis of whether the reaction times (RT) were slower or faster than the subject's mean RT (slow RT and fast RT trials).
Results: No drug and placebo showed robust activation differences in the globus pallidus and putamen for the fast RT trials compared to the slow RT trials, whereas paroxetine showed none. Paroxetine showed significantly lower activations in the globus pallidus, insula, putamen and dorsolateral prefrontal cortex compared to no drug in the fast RT trials.
Conclusions: Paroxetine single acute administration diminished brain activity induced by motivation in healthy subjects. This may partially explain the increased lack of motivation seen in patients with relatively mild symptoms after taking a dose of paroxetine for the first time.

DOI： 10.1111/j.1440-1819.2011.02189.x

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：WILEY-BLACKWELL  

Background. Various psychological stresses induce degranulation of mast cells. It has been confirmed by animal experiments that stress induced by restraint promotes mast-cell degranulation in various organs, and that the degranulation is inhibited by pretreatment with corticotropin-releasing factor (CRF)-neutralizing antibodies, CRF receptor antagonists, and neurotensin (NT) antagonists. Previous studies have suggested that anxiety and fear induced in animals by psychological stressors promote the production and release of various neuropeptides and neurotransmitters, and induce degranulation of mast cells in several organs.
Aim. To evaluate the effect of prior treatment with antipsychotic and anxiolytic agents to inhibit foot-shock (FS) stress-induced degranulation of mouse dermal mast cells.
Methods. Using a communication box system, FS was administered to mice and the degranulated dermal mast cells were counted. Chlorpromazine (2 or 4 mgkg body weight), tandospirone (10 mgkg body weight) or CRA1000, a selective non-peptidic CRF receptor type 1 antagonist (10 or 100 mgkg body weight) was injected intraperitoneally 1 h before exposure to FS.
Results. After FS was administered, the number of dermal mast cells did not change. However, FS significantly increased the proportion of degranulated mast cells. Pretreatment of mice with chlorpromazine hydrochloride, an antipsychotic agent (2 or 4 mgkg), or the anxiolytic agents tandospirone citrate (10 mgkg) or CRA1000 (10 or 100 mgkg), significantly inhibited the FS-induced mast-cell degranulation (P &lt; 0.05, P &lt; 0.01, P &lt; 0.05, P &lt; 0.05, and P &lt; 0.05, respectively).
Conclusions. Antipsychotic and anxiolytic agents may be effective treatments for stress-aggravated inflammatory skin diseases by inhibition of mast-cell degranulation.

DOI： 10.1111/j.1365-2230.2009.03650.x

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：NATL ACAD SCIENCES  

Serotonergic antidepressant drugs have been commonly used to treat mood and anxiety disorders, and increasing evidence suggests potential use of these drugs beyond current antidepressant therapeutics. Facilitation of adult neurogenesis in the hippocampal dentate gyrus has been suggested to be a candidate mechanism of action of antidepressant drugs, but this mechanism may be only one of the broad effects of antidepressants. Here we show a distinct unique action of the serotonergic antidepressant fluoxetine in transforming the phenotype of mature dentate granule cells. Chronic treatments of adult mice with fluoxetine strongly reduced expression of the mature granule cell marker calbindin. The fluoxetine treatment induced active somatic membrane properties resembling immature granule cells and markedly reduced synaptic facilitation that characterizes the mature dentate-to-CA3 signal transmission. These changes cannot be explained simply by an increase in newly generated immature neurons, but best characterized as "dematuration" of mature granule cells. This granule cell dematuration developed along with increases in the efficacy of serotonin in 5-HT4 receptor-dependent neuromodulation and was attenuated in mice lacking the 5-HT4 receptor. Our results suggest that serotonergic antidepressants can reverse the established state of neuronal maturation in the adult hippocampus, and up-regulation of 5-HT4 receptor-mediated signaling may play a critical role in this distinct action of antidepressants. Such reversal of neuronal maturation could affect proper functioning of the mature hippocampal circuit, but may also cause some beneficial effects by reinstating neuronal functions that are lost during development.

DOI： 10.1073/pnas.0912690107

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：ELSEVIER IRELAND LTD  

Comprehending conversation in a crowd requires appropriate orienting and sustainment of auditory attention to and discrimination of the target speaker. While a multitude of cognitive functions such as voice perception and language processing work in concert to subserve this ability, it is still unclear which cognitive components critically determine successful discrimination of speech sounds under constantly changing auditory conditions. To investigate this, we present a functional magnetic resonance imaging (fMRI) study of changes in cerebral activities associated with varying challenge levels of speech discrimination. Subjects participated in a diotic listening paradigm that presented them with two news stories read simultaneously but independently by a target speaker and a distracting speaker of incongruent or congruent sex. We found that the voice of distracter of congruent rather than incongruent sex made the listening more challenging, resulting in enhanced activities mainly in the left temporal and frontal gyri. Further, the activities at the left inferior, left anterior superior and right superior loci in the temporal gyrus were shown to be significantly correlated with accuracy of the discrimination performance. The present results suggest that the subregions of bilateral temporal gyri play a key role in the successful discrimination of speech under constantly changing auditory conditions as encountered in daily life. (C) 2010 Elsevier Ireland Ltd and the Japan Neuroscience Society. All rights reserved.

DOI： 10.1016/j.neures.2010.02.006

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：PERGAMON-ELSEVIER SCIENCE LTD  

The anterior cingulate cortex (ACC) is involved in the pathophysiology of a variety of mental disorders, many of which are exacerbated by stress. There are few studies, however, of stress-induced modification of synaptic function in the ACC that is relevant to emotional behavior. We investigated the effects of chronic restraint stress (CRS) on behavior and synaptic function in layers II/III of the ACC in mice. The duration of field excitatory postsynaptic potentials (fEPSPs) was longer in CRS mice than in control mice. The frequency of miniature inhibitory postsynaptic currents (mIPSCs) recorded by whole-cell patch-clamping was reduced in CRS mice, while miniature excitatory postsynaptic currents (mEPSCs) remained unchanged. Paired-pulse ratios (PPRs) of the fEPSP and evoked EPSC were larger in CRS. There was no difference in NMDA component of evoked EPSCs between the groups. Both long-term potentiation (LTP) and long-term depression of fEPSP were larger in CRS mice than in control mice. The differences between the groups in fEPSP duration, PPRs and LTP level were not observed when the GABA(A) receptor was blocked by bicuculline. Compared to control mice, CRS mice exhibited hyper-locomotive activity in an open field test, while no difference was observed between the groups in anxiety-like behavior in a light/dark choice test. CRS mice displayed decreased freezing behavior in fear conditioning tests compared to control mice. These findings suggest that CRS facilitates synaptic plasticity in the ACC via increased excitability due to disinhibition of GABA(A) receptor signalling, which may underlie induction of behavioral hyper-locomotive activity after CRS. (C) 2009 Elsevier Ltd. All rights reserved.

DOI： 10.1016/j.neuropharm.2009.12.011

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：AMER PHYSIOLOGICAL SOC  

Saitow F, Murano M, Suzuki H. Modulatory effects of serotonin on GABAergic synaptic transmission and membrane properties in the deep cerebellar nuclei. J Neurophysiol 101: 1361-1374, 2009. First published January 14, 2009; doi:10.1152/jn.90750.2008. Cerebellar outputs from the deep cerebellar nuclei (DCN) are critical for generating and controlling movement. DCN neuronal activity is primarily controlled by GABAergic inhibitory transmission by Purkinje cells in the cerebellar cortex and is also modulated by nerve inputs originating from other brain regions within and outside the cerebellum. In this study, we examined the modulatory effects of 5-HT on GABAergic synapses in the DCN. 5-HT decreased the amplitude of stimulation-evoked inhibitory postsynaptic currents (eIPSCs) in DCN neurons, and this effect was abolished by a 5-HT(1B) antagonist, SB 224289. The decrease in IPSC amplitude was associated with an increased paired-pulse ratio of the IPSC. 5-HT also decreased the frequency of miniature IPSCs without altering the amplitude. These data suggest that 5-HT presynaptically inhibited GABA release. Furthermore, 5-HT elicited a slow inward current in DCN neurons. Pharmacological studies showed that 5-HT activated the 5-HT(5) receptor, which is positively coupled to G protein and elicited the slow inward current through enhancement of hyperpolarization-activated cation channel activation. Finally, we examined the effects of 5-HT on the spike generation that accompanies repetitive stimulation of inhibitory synapses. 5-HT increased the spontaneous firing rate in DCN neurons caused by depolarization. Increase in the 5-HT-induced tonic firing relatively decreased the contrast difference from the rebound depolarization-induced firing. However, the inhibitory transmission-induced silencing of DCN firing remained during the conditioning stimulus. These results suggest that 5-HT plays a regulatory role in spike generation and contributes to the gain control of inhibitory GABAergic synapses in DCN neurons.

DOI： 10.1152/jn.90750.2008

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：Sungkyunkwan University  

Adipose tissue (AT) is an alternative source of the adult stem cells that can also be harvested from bone marrow (BM). Cultured AT-derived stem cells (ASCs) have been well characterized by many groups. However, non-cultured ASCs remain to be characterized. Hoechst 33342 dye efflux is a characteristic that is common to stem cells, as well as chemotherapy-resistant cancer cells. Thus, we compared the Hoechst 33342-stained side population (SP) cells in murine adipose-tissue (AT-SP cells) to the SP cells from murine bone marrow (BM-SP cells). The AT-SP cells were detected much more frequently in the 22 AT samples that were tested (0.42~6.00%, mean 2.57%) than the BM-SP cells were detected in the 6 BM samples (0.02~0.36%, mean 0.12%). After Hoechst staining, SP cells were analyzed by fluorescence-activated cell sorting (FACS) and electron micrograms. FACS analysis revealed that the AT-SP cells were CD44-, CD45-, CD45R+, Sca-1± and c-kit-, while the BM-SP cells were CD44-, CD45±, CD45R-, Sca-1+ and c-kit+. This indicates that the AT-SP cells differ phenotypically from the BM-SP cells. Electron microscopic analysis revealed that the AT-SP cells are small cells with a diameter of about 5 um. Some of the BM-SP cells had granules, similar to eosinophils or basophils, whereas the AT-SP cells had fewer organelles and a higher N/C ratio than the BM-SP cells. This suggests that the AT-SP cells are considerably more immature than the BM-SP cells. Thus, it appears that AT is a better source of immature non-hematopoietic cells than BM.

DOI： 10.15283/ijsc.2009.2.2.135

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Background and purpose: Substance P (SP), a representative member of the tachykinin family, is involved in nociception under physiological and pathological conditions. Recently, hemokinin-1 (HK-1) was identified as a new member of this family. Although HK-1 acts on NK1tachykinin receptors that are thought to be innate for SP, the roles of HK-1 in neuropathic pain are still unknown. Experimental approach: Using rats that had been subjected to chronic constrictive injury (CCI) of the sciatic nerve as a neuropathic pain model, we examined the changes in expression of SP- and HK-1-encoding genes (TAC1 and TAC4, respectively) in the L4/L5 spinal cord and L4/L5 dorsal root ganglia (DRGs) in association with changes in pain-related behaviours in this neuropathic pain state. Key results: The TAC4 mRNA level was increased on the ipsilateral side of the dorsal spinal cord, but not in DRGs, at day 3 after CCI. In contrast, the TAC1 mRNA level was significantly increased in the DRGs at day 3 after CCI without any changes in the dorsal spinal cord. Analysis of a cultured microglial cell line revealed the presence of TAC4 mRNA in microglial cells. Minocycline, an inhibitor of microglial activation, blocked the increased expression of TAC4 mRNA after CCI and inhibited the associated pain-related behaviours and microglial activation in the spinal cord. Conclusions and implications: The present results suggest that HK-1 expression is increased at least partly in activated microglial cells after nerve injury and is clearly involved in the early phase of neuropathic pain. © 2008 Macmillan Publishers Limited All rights reserved.

DOI： 10.1038/bjp.2008.301

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：SOC NUCLEAR MEDICINE INC  

F-18-fluoroethyl-SPA-RQ (F-18-FE-SPA-RQ) was recently developed as a radioligand for the measurement of neurokinin 1 (NK1) receptor with PET. In this study, we used F-18-FE-SPA-RQ with PET to visualize and quantify NK1 receptor in the human brain. Methods: PET scans were performed on 7 healthy men after intravenous injection of F-18-FE-SPA-RQ. Binding potential (BPNp) was calculated by the indirect kinetic, simplified reference tissue model (SRTM), and ratio methods. The indirect kinetic method was used as the gold standard method and was compared with the SRTM method, with scan times of 180, 270, and 330 min, and with the ratio method, with time integration intervals of 120-180, 210-270, and 300-330 min. The cerebellum was used as the reference brain region. Results: Regional radioactivity was highest in the caudate head and putamen; mid level in the parahippocampus, cerebral cortex, and thalamus; and lowest in the cerebellum. BPND values by the indirect kinetic method were 3.15 +/- 0.36, 3.11 +/- 0.66, 1.17 +/- 0.25, and 0.46 +/- 0.14 in the caudate, putamen, parahippocampal region, and thalamus, respectively. For cerebral cortical regions, BPNp values by the indirect kinetic method were 0.94 +/- 0.23, 0.82 +/- 0.15, 0.76 +/- 0.15, and 0.69 +/- 0.16 in the occipital, temporal, frontal, and anterior cingulate cortices, respectively. BPNp values by the SRTM and ratio methods were in good agreement with those by the indirect kinetic method (r = 0.94-0.98). Conclusion: The regional distribution of F-18-FE-SPA-RQ was in agreement with previous PET studies and postmortem studies of NK1 receptor in the human brain. The ratio method will be useful for clinical research of psychiatric disorders, for the estimation of NK1 receptor without arterial blood sampling and long dynamic PET.

DOI： 10.2967/jnumed.108.054353

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：ELSEVIER SCIENCE BV  

Since neuropathic pain is resistant to conventional analgesics such as opiates and non-steroidal anti-inflammatory drugs, the development of new types of drugs for its treatment has been awaited. Several key molecules associated with nociception have been suggested as potential targets for new analgesics. Glial cell line-derived neurotrophic factor (GDNF) has a variety of functions affecting the survival and development of specified neural cell populations, mediated via transmission of intracellular signals through binding to its high-affinity receptor, GFR alpha 1, and subsequent activation of a tyrosine receptor kinase, RET, neural cell adhesion molecule (NCAM), or other signaling molecules. GDNF also exhibits analgesic effects in rodent models of neuropathic pain, although the underlying mechanisms are still largely unknown, including the intracellular signal transduction involved. We report here that NCAM signaling plays a role in mediating the analgesic effect of GDNF in rats with chronic constrictive injury (M). We found that NCAM was expressed in intrinsic neurons in the spinal dorsal horn and in dorsal root ganglion neurons with small cell bodies. Reduction of NCAM expression by NCAM antisense oligodeoxynucleotide administration to CCI rats abolished the analgesic effect of GDNF without affecting RET signaling activation. An NCAM mimetic peptide, CM, partially reduced the chronic pain induced by CCI. These findings suggest that NCAM signaling plays a critical role in the analgesic effect of GDNF and that development of new drugs activating GDNF-NCAM signaling may represent a new strategy for the relief of intractable pain. (c) 2007 International Association for the Study of Pain. Published by Elsevier B.V. All rights reserved.

DOI： 10.1016/j.pain.2007.09.020

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：SOC NEUROSCIENCE  

Selective serotonin reuptake inhibitors (SSRIs) have been used to treat various psychiatric disorders. Although the cellular mechanisms underlying amelioration of particular symptoms are mostly unknown, recent studies have shown critical importance of the dentate gyrus of the hippocampus in behavioral effects of SSRIs in rodents. Here, we show that serotonin potentiates synaptic transmission between mossy fibers, the sole output of the dentate granule cells, and CA3 pyramidal cells in mouse hippocampal slices. This potentiation is mediated by activation of 5-HT4 receptors and intracellular cAMP elevation. A chronic treatment of mice with fluoxetine, a widely used SSRI, bidirectionally modulates the 5-HT-induced potentiation: Fluoxetine enhances the potentiation induced by lower concentrations of serotonin, while attenuates that by the higher concentration, which represents stabilization of synaptic 5-HT action. In contrast to the chronic treatment, an acute application of fluoxetine in slices induces a leftward shift in the dose-response curve of the 5-HT-induced potentiation. Thus, acute and chronic fluoxetine treatments have distinct effects on the serotonergic modulation of the mossy fiber synaptic transmission. Exposure of mice to novel environments induces increases in locomotor activity and hippocampal extracellular 5-HT levels. In mice chronically treated with fluoxetine, the novelty-induced hyperactivity is reduced without significant alterations in home cage activity and motor skills. Our results suggest that the chronic fluoxetine treatment can stabilize the serotonergic modulation of the central synaptic transmission, which may contribute to attenuation of hyperactive behaviors.

DOI： 10.1523/JNEUROSCI.1656-08.2008

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記述言語：英語   掲載種別：研究論文（学術雑誌）  

DOI： 10.1272/jnms.75.136

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：ELSEVIER SCIENCE BV  

Neurotrophic factors (NFs) play a pivotal role in the development of the central nervous system. They are thus also suspected of being involved in the etiology of schizophrenia. Previous studies reported a decreased level of serum brain-derived neurotrophic factor (BDNF) in schizophrenia, whereas the association of epidermal growth factor (EGF) with this illness remains controversial. Using a two-site enzyme immunoassay, we conducted the simultaneous measurement of serum BDNF and EGF levels in a group of patients with chronic schizophrenia (N= 74) and a group of normal controls matched in age, body mass index, smoking habit and sex (N= 8 7). We found that, compared to normal controls, patients with chronic schizophrenia exhibited lower serum levels of both BDNF and EGF across all ages examined (21-59 years). The serum levels of BDNF and EGF were negatively correlated in the controls (r=-0.387, P=0.0002) but not in the patients. Clinical parameters such as duration of illness and psychiatric rating scale also showed no robust correlations with the NF levels. Collectively, these results suggest that pervasive, abnormal signaling of NFs underlies the pathophysiology of chronic schizophrenia. (C) 2008 Elsevier B.V. All rights reserved.

DOI： 10.1016/j.schres.2008.01.017

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：ELSEVIER IRELAND LTD  

Prenatal stress has been reported to alter the development of the central nervous system functions. This alteration is thought to be partly caused by increased fetal exposure to glucocorticoid. To clarify how prenatal stress affects neuroendocrine systems and behaviour in an age-dependent manner, we administered a synthetic glucocorticoid, dexamethasone, as a stressor to pregnant rats at gestational days 16-21 and examined the developmental changes in behaviour, hypothalamic corticotropin-releasing factor mRNA expression, corticosterone response and glucocorticoid receptor expression in male offspring. Prenatal dexamethasone exposure decreased corticotropin-releasing factor mRNA in the hypothalamus and disturbed the plasma corticosterone response to restraint stress in the offspring at postnatal week 4 (PW4). In contrast, it was not until PW10 that increased anxiety-like behaviour emerged in the dexamethasone-exposed offspring. In association with the acquisition of increased anxiety-like behaviour at PW10, glucocorticoid receptor expression was decreased in the amygdala in dexamethasone-exposed offspring at PW7 and PW10. Thus, our longitudinal analysis suggests that prenatal exposure to glucocorticoid hampers neuroendocrinological development in the offspring during early life, and that this disturbance results in the induction of increased anxiety-like behaviour in adulthood. (C) 2007 Elsevier Ireland Ltd and the Japan Neuroscience Society. All rights reserved.

DOI： 10.1016/j.neures.2007.12.005

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：LIPPINCOTT WILLIAMS & WILKINS  

BACKGROUND: In clinical practice, the analgesic effects of epidurally administered local anesthetics on chronic pain sometimes outlast the duration of drug action expected from their pharmacokinetics. To investigate the underlying mechanisms of this prolonged effect, we examined the effects of ropivacaine, a local anesthetic, on pain-related behavior in a rat model of neuropathic pain. We also analyzed changes in the expression of nerve growth factor (NGF), which is involved in plasticity of the nociceptive circuit after nerve injury.
METHODS: In a rat model of neuropathic pain produced by chronic constrictive injury (CCI) of the sciatic nerve, thermal hyperalgesia, and mechanical allodynia were observed from Day 3 after surgery. Ropivacaine or saline was administered through an epidural catheter once a day, every day, and from Days 7-13 after the CCI operation. NGF content was measured in the L4 dorsal root ganglion, the hindpaw skin, the L4/5 dorsal spinal cord, and the sciatic nerve, using enzyme immunoassay.
RESULTS: The latency to withdrawal from thermal stimuli on the ipsilateral paw pads of CCI rats was significantly increased 4 days after the beginning of ropivacaine treatment, and thermal hyperalgesia was almost fully relieved. Similarly, mechanical allodynia was partially reduced after ropivacaine treatment. NGF content was increased in the L4 dorsal root ganglion on the ipsilateral, but not the contralateral, side, in CCI rats treated with ropivacaine.
CONCLUSION: Repetitive administration of ropivacaine into the epidural space in CCI rats exerts an analgesic effect, possibly by inducing a plastic change in the nociceptive circuit.

DOI： 10.1213/01.ane.0000296460.91012.51

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：BIOMED CENTRAL LTD  

Elucidating the neural and genetic factors underlying psychiatric illness is hampered by current methods of clinical diagnosis. The identification and investigation of clinical endophenotypes may be one solution, but represents a considerable challenge in human subjects. Here we report that mice heterozygous for a null mutation of the alpha-isoform of calcium/calmodulin-dependent protein kinase II (alpha-CaMKII+/-) have profoundly dysregulated behaviours and impaired neuronal development in the dentate gyrus (DG). The behavioral abnormalities include a severe working memory deficit and an exaggerated infradian rhythm, which are similar to symptoms seen in schizophrenia, bipolar mood disorder and other psychiatric disorders. Transcriptome analysis of the hippocampus of these mutants revealed that the expression levels of more than 2000 genes were significantly changed. Strikingly, among the 20 most downregulated genes, 5 had highly selective expression in the DG. Whereas BrdU incorporated cells in the mutant mouse DG was increased by more than 50 percent, the number of mature neurons in the DG was dramatically decreased. Morphological and physiological features of the DG neurons in the mutants were strikingly similar to those of immature DG neurons in normal rodents. Moreover, c-Fos expression in the DG after electric footshock was almost completely and selectively abolished in the mutants. Statistical clustering of human post-mortem brains using 10 genes differentially-expressed in the mutant mice were used to classify individuals into two clusters, one of which contained 16 of 18 schizophrenic patients. Nearly half of the differentially-expressed probes in the schizophrenia-enriched cluster encoded genes that are involved in neurogenesis or in neuronal migration/maturation, including calbindin, a marker for mature DG neurons. Based on these results, we propose that an "immature DG" in adulthood might induce alterations in behavior and serve as a promising candidate endophenotype of schizophrenia and other human psychiatric disorders.

DOI： 10.1186/1756-6606-1-6

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：BLACKWELL PUBLISHING  

Background: There is an increasing evidence to indicate that stress can influence skin disease and cutaneous functions. Previous studies have shown that stress alters the murine hair cycle; however, these studies have been carried out by using mouse models in which the hair cycle is forcibly synchronized after depilation.
Objective: To examine whether foot shock stress (FS) changes the spontaneous hair cycle in a non-depilated animal model, and to evaluate the role of mast cells and substance P (SP) in the influence of stress on the hair cycle.
Methods: Changes in the spontaneous hair cycle and the inhibitory effects of a specific SP NK1 receptor antagonist were examined in non-depilated mice during 3-4 weeks of FS.
Resutls: Foot shock stress prolonged the telogen stage of the hair cycle and delayed the induction of the subsequent anagen stage in the animal model. FS caused an increase in the ratio of de-granulated mast cells in the skin, an increase in the number of TUNEL-positive cells, and a decrease in the number of Ki67-positive cells. The NK1 receptor antagonist, WIN 62577, inhibited these stress responses.
Conclusions: Our results strongly support previous work, demonstrating that stress alters active hair-cycling in vivo through the action of SP.

DOI： 10.1111/j.1600-0625.2007.00558.x

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：WILEY-LISS  

Neurotransmission mediated by substance P (SP) and NK1 receptor has been implicated in the pathophysiology of analgesia, emesis and diverse neuropsychiatric conditions including depression and anxiety disorder. Several lines of clinical trials using NK1 receptor antagonists have been conducted to date, and the efficiency of preclinical assessments for proof of concept and dose optimization could be greatly increased by configuring an in vivo analytical system that permits quantitative mapping of NK1 receptors in the brains of small-size laboratory animals expressing "human-like" NK1 receptors. Hence, we investigated the applicability of experimental animals, ranging from rodents to primates, to positron emission tomographic (PET) measurements with [F-18]fluoroethyl-SPA-RQ a modification of a recently established radioligand for NK1 receptors. A pharmacokinetic assay could be performed for a rhesus monkey in an awake condition, which allows the circumvention of influences of anesthesia on SP neurotransmission. Coregistration of PET and magnetic resonance images acquired by small-animal-dedicated devices enabled detailed localization of NK1 receptors in the gerbil and marmoset brains. The present study also revealed the potentials of SDZ NKT 343 as an antagonist for central NK1 receptors. In conjunction with additional in vitro and ex vivo autoradiographic observations, our in vivo results have demonstrated a similarity in the binding pattern among the animals examined, justifying cross-species extrapolation of PET findings on the SPNK,pathway.

DOI： 10.1002/syn.20363

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：PERGAMON-ELSEVIER SCIENCE LTD  

Dopamine has been implicated in various brain functions and the pathology of neurological diseases. In the hippocampus, dopamine has been shown to induce acute depression of synaptic transmission in the CA1 region, but it remains largely unknown how it works in the CA3 region. We here report that dopamine induces acute synaptic potentiation at the synapse formed by mossy fibers (MFs) on mouse hippocampal CA3 pyramidal cells, but not at converging associational/commissural synapses. Dopamine potentiated both alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) and N-methyl-D-aspartate (NNIDA) components of MF synaptic responses similarly in respect of the magnitude and time course. The dopamine-induced potentiation was intact in the presence of picrotoxin, required activation of D-1-like receptors and was apparently occluded by an activator of adenylate cyclase. The potentiation was accompanied by a decrease in magnitude of synaptic facilitation, suggesting the presynaptic site for the expression of the potentiation. The present study is the first demonstration of acute potentiation of hippocampal excitatory synaptic transmission by dopamine, which is most probably mediated by presynaptic D-1-like receptor-cAMP cascades. (c) 2006 Elsevier Ltd. All rights reserved.

DOI： 10.1016/j.neuropharm.2006.08.026

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：NATURE PUBLISHING GROUP  

Metachromatic leukodystrophy (MLD) is a lysosomal storage disorder caused by a deficiency of arylsulfatase A (ASA) and is characterized by deposition of sulfatide in all organs, particularly the nervous system. Recently, formylglycine-generating enzyme (FGE) was found to be essential for activation of sulfatases. This study examined the utility of FGE co-expression in AAV type 1 vector (AAV1)-mediated gene therapy of ASA knockout (MLD) mice. AAV1-ASA alone or AAV1-ASA and AAV1-FGE were co-injected into a single site of the hippocampus. Enzyme assay and immunohistochemical analysis showed that ASA was detected not only in the injected hemisphere but also in the non-injected hemisphere by 7 months after injection. Level of ASA activity and extent of ASA distribution were significantly enhanced by co-introduction of AAV1-FGE. Marked reductions in sulfatide levels were observed throughout the entire brain. The unexpectedly widespread distribution of ASA may be due to a combination of diffusion in extracellular spaces, transport through axons, and circulation in cerebrospinal fluid. The rotarod test revealed improvement of neurological functions. These results demonstrate that direct injection of AAV1 vectors expressing ASA and FGE represents a highly promising approach with significant implications for the development of clinical protocols for MLD gene therapy.

DOI： 10.1038/sj.mt.6300012

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：ELSEVIER IRELAND LTD  

Cation chloride cotransporters, K(+)-Cl(-) cotransporter 2 (KCC2) and Na(+)-K(+)-Cl(-) cotransporter 1 (NKCC1) are reported to be expressed in the neurons in the spinal cord and regulate intracellular Cl(-) concentration. Evidence has been accumulating that the expression of cation chloride cotransporters changes in inflammatory or neuropathic pain, and such changes take a part in pathophysiology of the persistent pain states. However, it is largely unknown how these cotransporters contribute to hyperalgesia in the acute pain state. We, therefore, investigated expression changes of KCC2 and NKCC 1 in the spinal dorsal horn of the rat after the intraplantar injection of formalin as an acute nociceptive stimulus. The rats showed two phases (phases 1 and 2) of increase in pain-related behavior in response to formalin. We found that expression of KCC2-like immunoreactivity (IR) was reduced in lamina I and It in the lumbar spinal cord on the stimulated side in phase 1, and then recovered gradually. In contrast, the number of NKCC1-like IR-positive cells was unchanged over the period examined. These results suggest that KCC2, rather than NKCC1, mainly contributes to modulating excitability of the dorsal spinal cord neurons in the initial stage of formalin-evoked hyperalgesia. (c) 2006 Elsevier Ireland Ltd and the Japan Neuroscience Society. All rights reserved.

DOI： 10.1016/j.neures.2006.08.012

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：BLACKWELL PUBLISHING  

Increasing evidence suggests that various neurotrophins and neuropeptides play an important role in the progression of hair follicle cycling. Among them, nerve growth factor (NGF) and substance P (SP) have attracted special interest recently. However, the interaction between these factors during hair cycling has not yet been systematically studied. We therefore investigated the mutual relationships between NGF and SP and the mechanism by which the anagen stage of the hair cycle is initiated. Fluctuations in numbers of SP-positive nerve fibers and variations in amounts of SP, NGF, and another neurotrophic factor, glial cell-derived neurotrophic factor, in skin in the C57BL/6 mouse depilation-induced hair cycle model, together with the spatiotemporal expression patterns of each of these factors, were followed simultaneously by enzyme-linked immunosorbent assay and immunohistochemistry. The main finding was that a surge in NGF expression and a rapid increase in NGF content in skin is an initial event within 1 day after depilation, followed by elevation of SP content and numbers of SP-containing fibers 2 days after the increase in NGF. Our findings suggest that a rapid and abundant increase in NGF plays a key role in the induction and progression of anagen hair cycling through keratinocyte growth promotion. NGF may also induce plastic changes such as sprouting and hyperplasia in dermal nerve fibers and enhance their SP production. Elevated levels of SP in skin may additionally contribute to the progression of consecutive anagen hair cycles.

DOI： 10.1111/j.1346-8138.2006.00191.x

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：BLACKWELL PUBLISHING  

The hippocampus has long been implicated in memory formation. Although accumulating evidence suggests involvement of the hippocampus in other brain functions including locomotor regulation and emotional processes, cellular and synaptic bases underlying these functions remain largely unknown. We here report that environmental manipulations in mice unveiled the association of locomotor activity with the hippocampal mossy fibre (MF) synaptic transmission. Electrophysiological recordings of synaptic responses were made using hippocampal slices prepared from mice whose behaviour had been analysed. Environmental enrichment induced parallel decreases in open-field locomotor activity and MF synaptic facilitation. Facilitation induced by paired-pulse stimulation at relatively long intervals (&gt;= 200 ms) was selectively reduced while the basal synaptic efficacy and high-frequency transmission were unaffected. Social isolation caused a change in behaviour in an elevated plus-maze, but neither the open-field activity nor the MF synaptic transmission was significantly altered. Effects of dopamine, a neurotransmitter essential for locomotor regulation, on the MF synapse were also examined using these mice. Environmental manipulations did not cause significant changes in potentiation of the MF synaptic transmission induced by dopamine. However, analysis of behavioural and electrophysiological results in individual subjects revealed that locomotor activity negatively correlates with magnitude of the dopamine-induced potentiation. These results suggest that the MF synapse plays important roles in the regulation of locomotor activity. We propose that the MF synapse can serve as the synaptic model for certain forms of locomotor regulation, with potential importance for investigation of the pathophysiology of psychiatric diseases using animal models.

DOI： 10.1111/j.1460-9568.2006.05079

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：ELSEVIER IRELAND LTD  

Background: The interaction between nerve the immune system and inflammatory responses. Recent studies have shown that various stressors can induce degranulation of dermal mast cells in animals.
Objectives: This study was conducted to confirm that substance P (SP) was involved in the degranulation of dermal mast cells in stress conditions.
Methods: Using a communication box system, foot shock stress (FS) and psychological stress (PS) were administered to mice and the degranulation rate of dermal mast cells, the number of SP-positive nerve fibers and changes in SP content were determined. The inhibitory effect of a non-peptide NK1-receptor antagonist on these changes was investigated.
Results: Both FS and PS significantly enhanced the degranulation of dermal mast cells and increased the number of SP-positive nerve fibers. FS significantly decreased dermal SP content whereas SP was increased by PS. These changes were inhibited by intraperitoneal, injection of NK1 receptor antagonist.
Conclusions: It was considered that SP released from the nerve ending, had an important role in the degranulation of dermal mast cells. Results of this study suggest that the tachykinin receptor antagonist exhibited an inhibitory effect on aggravated stress-induced dermatitis. (c) 2005 Japanese Society for Investigative Dermatology. Published by Elsevier Ireland Ltd. All rights reserved.

DOI： 10.1016/j.jdermsci.2005.12.004

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：NATURE PUBLISHING GROUP  

1 Much attention has focused on tachykinin receptors as therapeutic targets for neuropsychiatric disorders, although their expressional distributions in the primate central nervous system (CNS) remain unclear. We cloned the genes encoding the NK-1 and NK-3 tachykinin receptors ( referred to as rmNK-1 and rmNK-3) from the rhesus monkey ( Macaca mulatta) brain and examined their pharmacological profiles and regional distributions in the CNS.
2 The deduced rmNK-1 amino-acid sequence differed by only two amino acids from the human NK-1 (hNK-1). The deduced rmNK-3 amino-acid sequence was two amino acids shorter than human NK-3 (hNK-3), with a seven-amino-acid difference in sequence.
3 Ligand binding studies revealed that the affinity of rmNK-1 to substance P (SP) was comparable to that of hNK-1 in cell lines that expressed individual receptors stably. Nonpeptide antagonists had similar effects on the binding of rmNK-1 and hNK-1. Affinity of rmNK-3 for NKB was stronger than for SP and the IC50 value was comparable with that of hNK-3. Ca2+ imaging showed that activations of both rmNK-1 and rmNK-3 by specific ligands, SP and senktide, induced increased intracellular Ca2+ in cell lines that stably expressed individual primate tachykinin receptors.
4 The amounts of rmNK-1 and rmNK-3 mRNAs were quantitatively determined in the monkey CNS. The expression of rmNK-1 was observed in all of the cortical and subcortical regions, including the hippocampus and the amygdala. The putamen contained the most NK-1 mRNA in the brain, with less rmNK-3 mRNA found in the cortex compared to rmNK-1 mRNA. In the monkey hippocampus and amygdala, rmNK-1 mRNA was present at markedly higher concentrations than rmNK-3 mRNA.
5 The present results provide an insight into the distinct physiological nature and significance of the NK-1 and NK-3 tachykinin systems in the primate CNS. These findings are indispensable for establishing model systems in the search for a subtype-specific tachykinin receptor agonist and antagonist for the treatment of neuropsychiatric disorders.

DOI： 10.1038/sj.bjp.0706561

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：ELSEVIER SCIENCE BV  

Detailed knowledge of the anatomical distribution of different GABA(A) receptor subunits is crucial for understanding the physiological actions of GABA in individual brain areas and for developing drugs acting through the individual GABA receptor subtypes. Since the amygdala is a key brain structure in the processing of emotional information with distinct functions in each nucleus, GABAA receptors in the amygdala are an important target of treatment for emotional disorders. In this study, we analyzed by quantitative RT-PCR the expression levels of all GABA(A) receptor subunits in distinct nuclei of the amygdala, the central (Ce) and the lateral/basolateral (LAIBLA) amygdala. We found the strongest expression of the gamma(2) subunit mRNA in both the Cc and LA/BLA, modest expressions of alpha(1), alpha(2) and alpha(3) mRNAs in the LA/ BLA and alpha(2) and gamma(1) mRNAs in the Ce, and weak expressions of alpha(6), rho(2) and rho(3) mRNAs in both regions. We further revealed the significantly different expressions of alpha(1), alpha(3), alpha(5), gamma(1), gamma(2), delta,epsilon and theta subunit mRNAs in the Cc and LA/BLA. Differences in the expression levels of GABA(A) receptor subunits suggest different sensitivity to a variety of drugs including benzodiazepines and anesthetics in amygdala nuclei with distinct functions. (c) 2005 Elsevier B.V. All rights reserved.

DOI： 10.1016/j.molbrainres.2005.03.013

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：ACADEMIC PRESS INC ELSEVIER SCIENCE  

Taking advantage of homogeneously marked cells from green fluorescent protein (GFP) transgenic mice, we have recently reported that adipose-derived stromal cells (ASCs) could differentiate into mesenchymal lineages in vitro. In this study, we performed neural induction using ASCs from GFP transgenic mice and were able to induce these ASCs into neuronal and glial cell lineages. Most of the neurally induced cells showed bipolar or multipolar appearance morphologically and expressed neuronal markers. Electron microscopy revealed their neuronal morphology. Some cells also showed glial phenotypes, as shown immunocytochemically. The present study clearly shows that ASCs derived from GFP transgenic mice differentiate into neural lineages in vitro, suggesting that these cells might provide an ideal source for further neural stem cell research with possible therapeutic application for neurological disorders. (c) 2005 Elsevier Inc. All rights reserved.

DOI： 10.1016/j.bbrc.2005.05.096

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：BLACKWELL PUBLISHING  

Properly regulated interactions among excitatory and inhibitory synapses are critical for brain function. Compared to excitatory synapses, much less is known about the gain control mechanisms at inhibitory synapses. Herein we report a mechanism of noradrenergic long-term potentiation (LTP) at inhibitory synapses following presynaptic beta-adrenoceptor activation. Stimulation of beta-adrenoceptors elicited LTP of GABA release from terminals of cerebellar interneurones. This action was dependent on the cAMP/protein kinase A signalling cascade and independent of the beta-adrenoceptor-mediated acceleration of hyperpolarization-activated cyclic nucleotide-gated cation (HCN) channel. Furthermore, the beta-adrenoceptor- and protein kinase A-mediated UP was triggered by enhancement of the Ca2+ sensitivity of the release machinery and increase in the readily releasable pool. beta-Adrenoceptor activation also accelerated the recruitment of GABA into the releasable pool and enhanced synchronous and asynchronous release of GABA from the presynaptic terminal. Thus, the up-regulation of GABA release machinery mediated by noradrenaline and beta-adrenoceptor activation provides a likely mechanism of feedforward inhibition of the cerebellar output neurone Purkinje cell, leading to a profound effect on motor control and learning associated with the cerebellum.

DOI： 10.1113/jphysiol.2005.084384

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：SOC NEUROSCIENCE  

Cerebellar GABAergic inhibitory transmission is under heterosynaptic control mediated by diverse chemical messengers. Here, we investigated roles of metabotropic P2Y purinoceptors (P2YRs) on GABAergic synapses between cerebellar interneurons and Purkinje cells (PCs). Activation of P2Y purinoceptors by two selective agonists, ADP and 2-methylthio-ADP (2MeSADP), elicited two distinct forms of synaptic plasticity of GABAergic transmission in the cerebellar cortex. First, the two agonists induced long-lasting enhancement of stimulation-evoked GABAergic IPSCs as well as GABA(A) receptor currents in PCs. This effect was completely abolished by intracellular infusion of the Ca2+- chelating agent BAPTA. Measurements of intracellular Ca2+ ([Ca2+](i)) dynamics showed that puff application of 2MeSADP produced an increase in [Ca2+](i) of PCs and that this increase persisted in an external Ca2+ -deficient medium. These results suggest that P2Y activation postsynaptically elicits long-term enhancement of GABA(A) receptor sensitivity of PCs through a G(q)-mediated increase in [Ca2+](i). The other action of P2YR agonists on cerebellar GABAergic synapses was that they produced a short-term increase in the frequency and the amplitude of spontaneous GABA(A) receptor-mediated IPSCs in PCs in a manner sensitive to a P2Y(1)R antagonist, N-6-methyl 2'-deoxyadenosine 3', 5'-bisphosphate. This action appeared to be attributable to an excitability increase in presynaptic GABAergic interneurons, because ADP excited all Lugaro cells examined and some of interneurons in the molecular layer. These results suggest that activation of cerebellar P2Y purinoceptors leads to modulation of GABAergic transmission in different spatial and temporal domains, namely short-term and long-term plasticity through presynaptic and postsynaptic mechanisms at interneuron--&gt;PC inhibitory synapses in the rat cerebellar cortex.

DOI： 10.1523/JNEUROSCI.4254-04.2005

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：BLACKWELL PUBLISHING LTD  

The transient receptor potential ion channel, TRPV1 plays an essential role in the development of inflammatory thermal hyperalgesia. We investigated the dependence of inflammatory TRPV1 induction on neurotrophic factor. Rat dorsal root ganglia (DRG) neurons were classified according to immunostaining for trk-A and IB4 and the effects of antibodies against NGF or GDNF on TRPV1 expression within the groups were then analysed by immunohistochemical means. The data were compared with the time course of trophic factor expression and the effects of their antibodies on thermal hyperalgesia against radiant heat after inflammation. Although the levels of both NGF and GDNF were increased by inflammation, NGF rapidly and transiently increased whereas GDNF increased gradually over a period of approximately one week. TRPV1 expression was increased within both trk-A positive and IB4 positive neurons after inflammation. Increased TRPV1 expression within trk-A positive neurons was prevented by anti-NGF but not by anti-GDNF, whereas TRPV1 induction within the IB4 positive group was blocked by anti-GDNF but not by anti-NGF. Both antibodies prevented the short latency of withdrawing an inflamed paw from radiant heat. These results suggest that inflammation differentially increases both NGF and GDNF, which facilitate TRPV1 expression within distinctive neurons to induce thermal hyperalgesia.

DOI： 10.1111/j.1460-9568.2004.03701.x

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：AMER SOC MICROBIOLOGY  

The cell cycle inhibitor p21 plays an important role in monocytic cell differentiation, during which it translocates from the nucleus to cytoplasm. This process involves the negative regulation of the p21 nuclear localization signal (NLS). Here, we sought to determine the relationship between the cytoplasmic translocation of p21 and another molecule, Brap2, a cytoplasmic protein which binds the NLS of BRCA1 and was recently reported to inactivate KSR in the Ras-activating signal pathway under the name of IMP. We report that p21 and Brap2 directly interact, both in vitro and in vivo, in a manner requiring the NLS of p21 and the C-terminal portion of Brap2. When it is cotransfected with Brap2, p21 is expressed in the cytoplasm. Monocytic differentiation of the promyelomonocytic cell lines U937 and HL60 is associated with the upregulation of Brap2 expression concomitantly with the upregulation and cytoplasmic rellocalization of p21. Our results underscore the role played by Brap2 in the process of cytoplasmic translocation of p21 during monocyte differentiation.

DOI： 10.1128/MCB.24.18.8236-8243.2004

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：ELSEVIER SCIENCE BV  

Dimethylarginine dimethylaminohydrolase I (DDAH1) is an enzyme that metabolizes methylated arginine to citrulline and methylamine, thus working to produce nitric oxide (NO). We isolated a gene encoding chick DDAH1. In situ hybridization analysis revealed characteristic DDAH1 mRNA expression in the embryonic spinal cord, which was especially strong in the ventral horn and dorsal root ganglion (DRG). DDAH1 was also detected in the brain, kidney, digestive tract, and in other tissues. We examined the expression pattern of DDAH1 in developing rats and compared this with the expression pattern in chicks. The expression pattern in the rats was very similar to that in the chicks, but there were some differences between the chicks and rats in the amount of DDAH1 detected in the heart, liver, lung, and DRG. We also investigated neural nitric oxide synthase (nNOS) mRNA expression patterns in rat embryos. The DDAH1 expression patterns were completely different from nNOS expression patterns. Our study suggests that DDAH1 plays an important role in development. (C) 2004 Elsevier B.V. All Rights Reserved.

DOI： 10.1016/j.devbrainres.2003.09.021

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：NATURE PUBLISHING GROUP  

1 In an attempt to clarify whether glial cell line-derived neurotrophic factor (GDNF), a survival factor for subpopulations of primary afferent neurons, is involved in the states of neuropathic pain, we observed changes in the expressions of GDNF and its signal-transducing receptor Ret after nerve injury in two rat models of neuropathic pain.
2 In the rats treated with sciatic nerve ligation (chronic constrictive injury (CCI) model) or spinal nerve ligation at L5 (SNL model), the thresholds of paw withdrawal in response to mechanical or heat stimuli began to decrease on the injured side within the first week after the operation and the decreases in the thresholds persisted for more than 2 weeks.
3 In CCI-treated rats, the GDNF contents in L4 and L5 dorsal root ganglia (DRGs) on the injured side were markedly decreased at day 7 after the operation and stayed at low levels at day 14. In SNL-treated rats, comparable reductions of GDNF levels in L4 and L5 DRGs on the injured side were observed at 14 postoperative days.
4 Significant decreases of the percentages of DRG neurons expressing Ret were also observed at L4 DRGs in CCI-treated rats at 7 and 14 postoperative days and in SNL-treated rats at 14 days.
5 In CCI- or SNL-treated rats, continuous intrathecal administration of GDNF (12 mug day(-1)) using an osmotic pump suppressed the increased sensitivities to nociceptive stimuli to control levels.
6 The present results suggested that the dysfunction of GDNF signaling in the nociceptive afferent system may contribute to the development and/or maintenance of neuropathic pain states.

DOI： 10.1038/sj.bjp.0705550

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：ELSEVIER SCI IRELAND LTD  

Neurotrophic factors are thought to be critically involved in formation and maintenance of the neuromuscular system. To know precise expression levels of these factors in the muscles during the postnatal period, we developed competitive RT-PCR and two-site enzyme immunoassay and quantitatively measured neurotrophic factors in the rat gastrocnemius and solcus muscles during the postnatal development. mRNAs of glial cell line-derived neurotrophic factor (GDNF) in the gastrocnemius and the soleus muscles were expressed in the highest amount among the neurotrophic factors at birth and dramatically decreased in the first 3 months, while GDNF proteins substantially existed at 3 months of age. Neurotrophin-3 and brain-derived neurotrophic factor in the gastrocnemius muscle kept constant expression in mRNA and protein during the postnatal period. In contrast, mRNA of neurotrophin-4 increased in the first 2 weeks. In the soleus muscles all the neurotrophic factor proteins increased with age for the first month, contrasting with their expressions in the gastrocnemius. The present results showed that GDNF is;, constitutively supplied to the neuromuscular junction (NMJ) during postnatal. development and into adulthood, suggesting its importance in maintenance of the NMJ. Expression of other neurotrophins was also regulated independently during development possibly according to their own roles in the neuromuscular circuit. (C) 2003 Elsevier Science Ireland Ltd and the Japan Neuroscience Society. All rights reserved.

DOI： 10.1016/S0168-0102(03)00010-5

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記述言語：英語   掲載種別：研究論文（学術雑誌）  

To reveal roles of neurotrophic factors in plastic changes of the primary afferent neurons following nerve injury, we investigated expression of glial cell line-derived neurotrophic factor (GDNF) as well as nerve growth factor (NGF) in a neuropathic pain model of the rat. The rats exhibited hyperalgesia and allodynia on the injured left side for at least 2 weeks after chronic constrictive injury to the sciatic nerve. Accompanied by the behavioral changes, expression of GDNF decreased in the dorsal root ganglia (DRGs) and the sciatic nerve on the injured side on the fourteenth day after the surgery. In contrast, the amount of NGF in DRGs was unchanged in spite of disturbance of NGF transport in the nerve. The present results suggest that decreased expression of GDNF takes some part in development and/or maintenance of neuropathic pain.

DOI： 10.11480/jmds.500112

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：VSP BV  

Noradrenaline (NA) and serotonin (5-HT) released by electrical stimulation into the rat cerebellar cortex from afferent input terminals have been shown to elicit long-term facilitation of inhibitory GABAergic transmission between interneurons, basket cells (BCs), and Purkinje cells (PCs). This study aimed to further examine receptor mechanisms underlying the noradrenergic facilitation. Using cerebellar slices cut from neonatal rats and patch-damp recordings, we explored the actions of adrenoceptor agonists and antagonists on GABAergic synapses. GABA-mediated inhibitory postsynaptic currents (IPSCs) were evoked by focal stimulation and recorded from PCs. Application of NA or isoproterenol (ISP), a beta -receptor agonist increased the amplitude of IPSCs and the frequency of miniature IPSCs without affecting postsynaptic GABA receptor sensitivity and mean amplitude of miniature IPSCs. The enhancement by NA of IPSCs was suppressed by a beta (2)-adrenoceptor antagonist, ICI118,551, but not try a beta (1)-adrenoceptor antagonist, CGP20712A, suggesting that the beta (2)-adrenoceptors on BCs mediate the noradrenergic facilitation of GABAergic transmission Then we performed double recordings from BCs and PCs, which showed that the beta -agonist ISP increased the frequencies of the spontaneous spikes in BCs and the spike-triggered IPSCs in PCs. Forskolin mimicked the actions of beta -agonist in enhancing BC spiking and spike-triggered IPSCs in PCs. Furthermore voltage-clamp experiments showed that BCs exhibit profound activity of a hyperpolarization-activated cation channel current, I-h and that ISP and forskolin enhanced persistent activation of I-h channel. NA and ISP induced BC depolarization which was abolished by the I-h inhibitor ZD7288. Taken together, our data suggest that beta -adrenoceptor-mediated acceleration of I-h, in BCs is involved, at least in part, in noradrenergic facilitation of GABAergic transmission at BC-PC inhibitory synapses.

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：KLUWER ACADEMIC PUBL  

The present study was aimed to investigate whether or not cyclin-dependent kinases (CDKs) participate in different cascades leading to apoptosis. We examined the effects of two CDK inhibitors, olomoucine (OLM) and buty-rolactone-I (BL-I), on apoptosis induced in two kinds of Drosophila cell lines. Increases of caspase activity induced by actinomycin D, cycloheximide, H-7 or A23187 in a Drosophila neuronal cell line, ML-DmBG2-c2, and induced by excessive expression of a Drosophila cell death gene, reaper, in Drosophila S2 cells were suppressed by 24-h pretreatment of each CDK inhibitor. Concomitant with the suppression of the caspase activity, fragmentations of cells and DNA, representatives of apoptosis, were also inhibited. These results suggest that CDK(s) participates in progression of apoptosis. However, these effects of the CDK inhibitors were also observed even at lower doses which did not affect cell proliferation. Therefore, it was shown that apoptosis is not always related to cell cycle in Drosophila cells. It was also suggested that the target(s) of the CDK inhibitors locates upstream of caspase in the cascade(s) of apoptosis.

DOI： 10.1023/A:1009641613826

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掲載種別：研究論文（学術雑誌）   出版者・発行元：Elsevier BV  

DOI： 10.1016/s0304-3940(99)00419-x

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：JAPAN ACAD  

We purified a novel substance with survival activity for spinal motoneurons from skeletal muscles of chick embryos. The purification procedure using various column chromatographies was described. The purified substance showed a maximum UV absorbance at 258 nm, which suggests that it is non-peptidergic in nature. This is the first report to show that a non-peptidergic substance exhibits the survival activity on spinal motoneurons. A possible candidate for the substance was discussed.

DOI： 10.2183/pjab.75.54

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記述言語：英語   出版者・発行元：The Japan Academy  

In our preceding paper, we presented the purification of a chick embryo&#039;s muscle-derived substance that prevented spinal neurons from undergoing cell death in vitro. In this study, characterization of this substance by1H-NMR spectroscopic analysis and enzymatic inactivation experiments revealed that the substance responsible for the survival of cultured spinal neurons was RNA. For further characterization a modified purification procedure was devised on the basis of the substance being RNA. The finally purified substance showed λmaxat 258 nm and prevented enriched populations of spinal motoneurons from undergoing cell death in vitro, in the same way as the crude muscle extract. These results suggested a novel role of RNA as an intercellular signaling molecule.

DOI： 10.2183/pjab.75.59

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：WILEY-LISS  

Glial cell Line-derived neurotrophic factor (GDNF) has been shown to exert neurotrophic effects on motor neurons as well as mesencephalic dopaminergic neurons. Because GDNF promotes survival of motor neurons in vivo and in vitro and rescues motor neurons from naturally occurring cell death, the potential use of GDNF for treatment of motor neuron diseases has been a major focus of recent research. The expression of GDNF in humans, however, has not been fully examined. In the present study, we examined the expression of GDNF in adult human muscle by Northern blot, reverse transcriptase polymerase chain reaction (RT-PCR), and immunohistochemical analyses to address physiological roles of GDNF in humans. Northern blot analysis demonstrated high expression of GDNF mRNA in human skeletal muscle when compared to that of mouse. Intense GDNF immunoreactivity was observed in the vicinity of plasma membranes of skeletal muscle, particularly at neuromuscular junctions. GDNF immunoreactivity was also observed within the axons and surrounding Schwann cells of peripheral nerves. However, RT-PCR detected expression of GDNF mRNA only in skeletal muscle, and not within the anterior horn cells of human spinal cord. These results suggest that GDNF is produced by skeletal muscle and taken up at the nerve terminals for retrograde transport by axons. Thus, GDNF in human skeletal muscle may be involved in promoting motor neuron survival as a target-derived neurotrophic factor. J. Comp. Neurol. 402:303-312, 1998. (C) 1998 Wiley-Liss, Inc.

DOI： 10.1002/(SICI)1096-9861(19981221)402:3<303::AID-CNE2>3.0.CO;2-I

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：STOCKTON PRESS  

1 Effects of wortmannin, an inhibitor of myosin light chain kinase, on the release of substance P and amino acids, GABA and glutamate, were investigated in the isolated spinal cord preparation of the neonatal rat.
2 Wortmannin at 0.5-10 mu M depressed the release of substance P evoked by high-K+ (90 mM) medium from the spinal cord (IC50=1.1 mu M). Wortmannin also depressed the high-K+ (70 mM)-evoked release of substance P from cultured dorsal root ganglion neurons of neonatal rats. In contrast, the high-K+ (90 mM)-evoked release of GABA and glutamate from the spinal cord was not affected by wortmannin (0.1-10 mu M).
3 Upon stimulation of a dorsal root, a monosynaptic reflex and a subsequent slow ventral root depolarization were evoked in the ipsilateral ventral root of the same segment in the isolated spinal cord preparation. The magnitude of the slow ventral root depolarization was depressed gradually to about 70% of the control during the course of 30 min under wortmannin (1 mu M). In contrast, the monosynaptic reflex was unaffected by wortmannin.
4 Immunofluorescent staining revealed that immunoreactivities of substance P and myosin II were colocalized at presynaptic terminals in the dorsal horn of the neonatal rat spinal cord.
5 The present results suggest that myosin phosphorylation by myosin light chain kinase may play a crucial role in the release of substance P, but not in the release of GABA and glutamate in the neonatal rat spinal cord. This may reflect a difference in the exocytic mechanisms of substance P-containing large dense core vesicles and amino acid-containing small clear vesicles.

DOI： 10.1038/sj.bjp.0702243

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：ELSEVIER SCI IRELAND LTD  

Glial cell line-derived neurotrophic factor (GDNF) has been shown to exert a target-derived trophic factor for motor neurons. Immunohistochemical analyses revealed that expression of GDNF in regeneration muscle fibers was up-regulated in polymyositis (PM) and Duchenne type muscular dystrophy (DMD). Reverse transcriptase polymerase chain reaction (RT-PCR) analyses showed that the full length GDNF was up-regulated in PM and DMD muscle; normal muscle exhibited mostly truncated GDNF. The results indicate that the GDNF expression is regulated in regeneration of human skeletal muscle. (C) 1998 Elsevier Science Ireland ltd. All rights reserved.

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DOI： 10.1016/S0168-0102(98)00030-3

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：ELSEVIER SCI IRELAND LTD  

The possible involvement of enzymatic degradation in the inactivation of enkephalins in the spinal cord of neonatal rats was investigated electrophysiologically and biochemically. In an isolated spinal cord-saphenous nerve preparation, electrical stimulation of the saphenous nerve evoked a slow depolarization lasting 20-30 s of the ipsilateral L3 ventral root. This slow depolarization was depressed by a mixture of peptidase inhibitors, consisting of actinonin (10 mu M), thiorphan (0.6 mu M), bestatin (10 mu M), arphamenine B (10 mu M) and captopril (10 mu M). Naloxone (0.5 mu M) not only reversed this effect of the mixture of peptidase inhibitors but also potentiated the slow depolarization beyond the pre-control level. In an isolated spinal cord preparation, electrical stimulation of a lumbar dorsal root evoked a slow depolarization of the contralateral ventral root of the same segment. This slow depolarization was depressed by application of [Met(5)]enkephalin in a dose dependent manner. This effect of [Met(5)]enkephalin was markedly potentiated by addition of the mixture of peptidase inhibitors. Among the five peptidase inhibitors, actinonin, thiorphan or bestatin alone potentiated the depressant effect of [Met(5)]enkephalin, whereas arphamenine B and captopril did not. Membrane fractions prepared from neonatal rat spinal cords showed degrading activities for [Met(5)]- and [Leu(5)]enkephalins and these activities were inhibited by the mixture of peptidase inhibitors. Among the five peptidase inhibitors, actinonin and thiorphan markedly inhibited the [Met(5)]enkephalin-degrading activity while bestatin was less effective. Arphamenine B and captopril were ineffective. The present results suggest that enzymatic degradation by peptidases plays a role in the termination of the transmitter action of enkephalins in the neonatal rat spinal cord. The present results, together with our previous results on the enzymatic degradation of tachykinins in a study in which we used the same preparations, suggest that similar but distinct combinations of peptidases are involved in the inactivation of enkephalin and tachykinin neurotransmitters. (C) 1997 Elsevier Science Ireland Ltd.

DOI： 10.1016/S0168-0102(97)00052-7

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：PERGAMON-ELSEVIER SCIENCE LTD  

The characteristics of release of amino acids evoked by substance P from the neonatal rat spinal cord were examined. A hemisected spinal cord was continuously perfused and the release of amino acids into the perfusate was measured using high-performance liquid chromatography with a precolumn derivatization technique. Substance P (10 mu M) evoked a significant increase in the release of aspartate, glutamate, GABA, glycine and taurine. The substance P-evoked release of these five amino acids was not reduced by Ca2+-free medium, but was blocked by [D-Pro(4),D-Trp(7,9,10)] substance P-4-11 (10 mu M). Perfusion of the spinal cord with low-Na+ medium (22 mM) induced a marked increase in the high-K+ (90 mM)-evoked release of GABA, glutamate and glycine. In contrast, the substance P-evoked release of the five amino acids was significantly decreased by the low-Na+ medium. Similarly, perfusion of the spinal cord with low-Cl- medium (8 mM) increased the high-K+-evoked release of GABA and glycine, but decreased the substance P-evoked release of GABA, glycine and taurine. The substance P-evoked release of the five amino acids was dose-dependently blocked by d-tubocurarine (3-10 mu M), whereas it was not blocked by tetrodotoxin (0.2 mu M) or amiloride (30 mu M). Compound 48/80 (10 mu g/ml), a histamine-releasing agent on mast cells, evoked release of the amino acids from the spinal cord with characteristics similar to those of substance P-evoked amino acid release.
These results suggest that, in the neonatal rat spinal cord, substance P evokes the release of neuroactive amino acids by inducing sodium and/or chloride influx that is blocked by d-tubocurarine and consequently by activating reversed uptake through transporters of the amino acids.

DOI： 10.1016/0306-4522(95)00153-A

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：STOCKTON PRESS  

1 The possible involvement of enzymatic degradation in the inactivation of tachykinin neurotransmitters was examined in the spinal cord of the neonatal rat.
2 The magnitude of substance P (SP)- or neurokinin A (NKA)-evoked depolarization of a lumbar ventral root in the isolated spinal cord preparation was increased by a mixture of peptidase inhibitors, consisting of actinonin (6 mu M), arphamenine B (6 mu M), bestatin (10 mu M), captopril (10 mu M) and thiorphan (0.3 mu M). The mixture augmented the response to NKA more markedly than that to SP.
3 In the isolated spinal cord-cutaneous nerve preparation, the saphenous nerve-evoked slow depolarization of the L3 ventral root was augmented by the mixture of peptidase inhibitors in the presence of naloxone (0.5 mu M) but not in the presence of both naloxone and a tachykinin receptor antagonist, GR71251 (5 mu M).
4 Application of capsaicin (0.5 mu M) for 6 min to the spinal cord evoked an increase in the release of SP from the spinal cord. The amount of SP released was significantly augmented by the mixture of peptidase inhibitors.
5 Synaptic membrane fractions were prepared from neonatal rat spinal cords. These fractions showed degrading activities for SP and NKA and the activities were inhibited by the mixture of peptidase inhibitors. The degrading activity for NKA was higher than that for SP and the inhibitory effect of the mixture for NKA was more marked than that for SP. Although some other fractions obtained from homogenates of spinal cords showed higher degrading activities for SP, these activities were insensitive to the mixture of peptidase inhibitors.
6 Effects of individual peptidase inhibitors on the enzymatic degradation of SP and NKA by synaptic membrane fractions were examined. Thiorphan, actinonin and captopril inhibited SP degradation, while thiorphan and actinonin, but not captopril, inhibited NKA degradation. The potency of the inhibition of each peptidase inhibitor was lower than that of the mixture.
7 The present results suggest that enzymatic degradation is involved in the inactivation of tachykinin neurotransmitters in the spinal cord of the neonatal rat.

DOI： 10.1111/j.1476-5381.1994.tb16210.x

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：ELSEVIER SCIENCE BV  

The pharmacological profiles of tachykinin receptors mediating the release of acetylcholine were examined in the isolated spinal cord of the neonatal rat. The acetylcholine release evoked by neurokinin A or acetyl-[Arg6,Pro9]substance P-(6-11) was depressed by the tachykinin antagonists, spantide and GR71251 at 10 muM, whereas the release evoked by substance P (0.3 muM) or neurokinin B (0.3 muM) was not affected by these tachykinin antagonists. Polymerase chain reaction amplification of rat spinal cord cDNA and sequence analysis revealed the presence of a substantial amount of fragments having sequences identical to that of the NK1 or NK3 receptor, but only a few having a sequence identical to that of the NK2 receptor. These results suggest that in the neonatal rat spinal cord a novel subtype of tachykinin receptor similar but not identical to the classical NK1 receptor is involved in tachykinin-evoked acetylcholine release.

DOI： 10.1016/0014-2999(93)90939-F

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：STOCKTON PRESS  

1 The involvement of acetylcholine and muscarinic receptors in spinal synaptic responses evoked by electrical and noxious sensory stimuli was investigated in the neonatal rat spinal cord in vitro.
2 Potentials were recorded extracellularly from a ventral root (L3-L5) of the isolated spinal cord, spinal cord-cutaneous nerve, and spinal cord-skin preparations of 1- to 4-day-old rats. Spinal reflexes were elicited by electrical stimulation of the ipsilateral dorsal root or the cutaneous saphenous nerve, or by noxious skin stimulation.
3 Single shock stimulation of supramaximum intensity of a dorsal root induced a mono-synaptic reflex in the corresponding ventral root. Bath-application of the muscarinic agonists, muscarine (0.3-30 mum) and (+)-cis-dioxolane (0.1-100 muM), produced an inhibition of the mono-synaptic reflex and a depolarization of motoneurones. Other muscarinic agonists, arecoline (10 nm-10 muM) and oxotremorine (10 nM-1 muM), inhibited the mono-synaptic reflex with little or no depolarization of motoneurones. Repetitive stimulation of the saphenous nerve at C-fibre strength induced a slow depolarizing response lasting about 30 s of the L3 ventral root. This slow ventral root potential (VRP) was also inhibited by arecoline (10 nm-10 mum) and oxotremorine (10 nm-l mum).
4 In the spinal cord-saphenous nerve-skin preparation, a slow VRP was evoked by application of capsaicin (0.5 muM), bradykinin (3 muM), or noxious heat (47-degrees-C) to skin. This slow VRP was depressed by the muscarinic agonists, arecoline (3 mum) and oxotremorine (I mum).
5 Of the (+)-cis-dioxolane-induced inhibition of mono-synaptic reflex and motoneurone depolarization, the M2 antagonists, AF-DX 116 (0.1-1 mum) and methoctramine (100-300 nm), preferentially blocked the former response, whereas the M3 antagonists, 4-DAMP (3-10 nm) and p-F-HHSiD (0.3-3 mum), preferentially blocked the latter response. AF-DX 116 (0.1 -1 mum) and methoctramine (100-300 nm) also effectively antagonized the arecoline- and oxotremorine-induced inhibition of the slow VRP. The pA2 values of AF-DX 116 and methoctramine against the arecoline-induced inhibition of the mono-synaptic reflex were both 6.79, and that of 4-DAMP against the (+)-cis-dioxolane-induced motoneurone depolarization was 8.16.
6 In the spinal cord-cutaneous nerve preparation, the saphenous nerve-evoked slow VRP was augmented by the anticholinesterase, edrophonium (5 mum). AF-DX 116 (I mum) and methoctramine (100 nm) also potentiated the slow VRP, whereas 4-DAMP (10 nm) depressed the response. 4-DAMP (5-10 nm) depressed the capsaicin-induced slow VRP in the spinal cord-skin preparation.
7 Oxotremorine (0.3 mum) and arecoline (I mum) markedly depressed the depolarization of motoneurones evoked by application of capsaicin (3 mum) to the spinal cord, whereas they depressed only slightly the depolarization induced by substance P (I 0 nm).
8 The present study suggests that both excitatory (via M3-type receptors) and inhibitory (via M2-type receptors) muscarinic mechanisms are involved in afferent fibre-evoked nociceptive transmissions in the neonatal rat spinal cord.

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：ELSEVIER SCIENCE BV  

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：ELSEVIER SCIENCE BV  

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記述言語：英語   出版者・発行元：ELSEVIER SCI IRELAND LTD  

A mixture of peptidase inhibitors increased the magnitude of the saphenous nerve-evoked slow depolarization of a lumbar ventral root and prolonged the similarly evoked inhibition of monosynaptic reflex (MSR) in the isolated spinal cord of the newborn rat in the presence of naloxone. The saphenous nerve-evoked MSR inhibition was curtailed by a tachykinin antagonist, GR71251, and after the treatment with GR71251, the peptidase inhibitor mixture no more prolonged the MSR inhibition. The present results suggest that enzymatic degradation plays a role in the termination of action of tachykinins released from primary afferents in the newborn rat spinal cord. The results provide a further support for the notion that tachykinins serve as neurotransmitters in the spinal cord of the newborn rat.

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：PERGAMON-ELSEVIER SCIENCE LTD  

The transmitter mechanism of a long-lasting descending inhibition of the monosynaptic reflex was investigated in the isolated spinal cord of the neonatal rat. The monosynaptic reflex elicited by dorsal root stimulation was recorded extracellularly from a lumbar ventral root (L3-L5). Electrical stimulation of the upper thoracic part of the hemisected cord caused an inhibition lasting about 40 s of the monosynaptic reflex. This descending inhibition was markedly attenuated by perfusing the spinal cord with reserpine (1-mu-M) or 5,7-dihydroxytryptamine (10-mu-M) for 2-6 h. The perfusion with reserpine (1-mu-M) for 4 h significantly decreased the contents of 5-hydroxytryptamine, dopamine, and norepinephrine of the neonatal rat spinal cord, whereas the perfusion with 5,7-dihydroxytryptamine (10-mu-M) for 4 h decreased the contents of 5-hydroxytryptamine and dopamine. The descending inhibition was markedly potentiated by a 5-hydroxytryptamine uptake blocker, citalopram (10 nM), and was blocked by a 5-hydroxytryptamine antagonist, ketanserin (10-100 nM). Application of 5-hydroxytryptamine to the spinal cord induced an inhibition of the monosynaptic reflex, a later part of which was blocked by ketanserin. Ketanserin also moderately blocked inhibitions of the monosynaptic reflex caused by norepinephrine and dopamine. Phentolamine (10-mu-M) abolished the depressant actions of norepinephrine and dopamine, but did not affect that of 5-hydroxytryptamine or the descending inhibition.
These results strongly suggest the involvement of 5-hydroxytryptamine, but not dopamine nor norepinephrine, in the descending inhibition. Besides ketanserin, the descending inhibition was blocked by ritanserin, haloperidol, and pipamperone, which have affinities to 5-hydroxytryptamine2 receptors, and also by spiperone and methiothepin, which are antagonists at both 5-hydroxytryptamine1 and 5-hydroxytryptamine2 receptors (all 1-mu-M). On the other hand, a 5-hydroxytryptamine1C and 5-hydroxytryptamine2 antagonist, mesulergine (1-mu-M), and 5-hydroxytryptamine3 antagonists, ICS 205-930 and quipazine (both 1-mu-M), did not depress either the descending inhibition or the 5-hydroxytryptamine-evoked inhibition of the monosynaptic reflex. The results with these antagonists favor the involvement of 5-hydroxytryptamine2 receptors although the results with mesulergine disagree with this notion. 5-Hydroxytryptamine1 agonists, such as 8-hydroxy-2-(di-n-propylamino)tetralin, buspirone, and 5-carboxyamidotryptamine, and a 5-hydroxytryptamine3 agonist, 2-methyl-5-hydroxytryptamine, induced a long-lasting inhibition of the monosynaptic reflex, which was blocked by ketanserin whereas a 5-hydroxytryptamine2 agonist, S-(+)-alpha-methyl-5-hydroxytryptamine, evoked a biphasic inhibition, in which only the later component was blocked by ketanserin. The potent agonistic action of 5-carboxyamidotryptamine, 8-OH-hydroxy-2-(di-n-propylamino)tetralin and buspirone suggests that the receptor responsible for the inhibition of the monosynaptic reflex has a resemblance to 5-hydroxytryptamine1 type. Thus the 5-hydroxytryptamine receptors involved in the inhibition cannot be classified simply as 5-hydroxytryptamine1, 5-hydroxytryptamine2, or 5-hydroxytryptamine3 subtypes. When two successive stimuli with an interval of 50 ms were given to the dorsal root, the second monosynaptic reflex was smaller than the first. The conditioning stimulation of the upper thoracic segments or applications of 5-carboxyamidotryptamine or buspirone, as well as a low-Ca2+ medium, increased the ratio of the amplitude of the second monosynaptic reflex to the first so that the second response often became larger than the first, which suggests that the site of the inhibitions is presynaptic.
The present study suggests that 5-hydroxytryptamine is involved in the descending inhibition of the monosynaptic reflex in the neonatal rat spinal cord.

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記述言語：英語   掲載種別：研究論文（学術雑誌）   出版者・発行元：PERGAMON-ELSEVIER SCIENCE LTD  

Isolated spinal cords of newborn rats were perfused with artificial cerebrospinal fluid and the effects of substance P and its analogs on the release of endogenous GABA were examined. Application of substance P evoked a dose-dependent release of GABA from spinal cords. The threshold concentration of substance P for induction of a significant increase in the GABA release was 3-mu-M. The substance P-evoked GABA release was neither blocked by removal of Ca2+ from perfusion medium nor by tetrodotoxin. In contrast, the GABA release evoked by high K+ (90 mM) was abolished in Ca2+-free medium, and the GABA release evoked by veratridine (5-mu-M) was suppressed by tetrodotoxin (1-mu-M). A GABA uptake inhibitor, cis-4-hydroxynipecotic acid, markedly augmented the GABA release induced by high K+, but not that induced by substance P or veratridine. These results suggest the possibility that a carrier-mediated mechanism might be involved in the GABA release induced by substance P, as well as by veratridine, in the newborn rat spinal cord.
Two N-terminal fragments of substance P, substance P free acid and substance P1-10 amide, as well as [D-Arg1, D-Trp7,9, Leu11]substance P (spantide), evoked an increase in the GABA release, whereas substance P1.6, and a C-terminal fragment, substance P5-11 were inactive. Somatostatin and compound 48/80 also evoked a GABA release, which was independent of external Ca2+ and resistant to tetrodotoxin. [D-Pro4, D-Trp7,9,10]substance P4-11 (10-15-mu-M) inhibited the GABA release evoked by substance P, somatostatin and compound 48/80.
These results showed that the features of the GABA release evoked by substance P, somatostatin and compound 48/80 from the neonatal rat spinal cord are similar to those of the histamine release evoked by these compounds from mast cells and suggest the involvement of a similar or the same mechanism in the releases from two tissues.

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記述言語：日本語   出版者・発行元：(一社)日本臨床スポーツ医学会  

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記述言語：日本語   出版者・発行元：(株)医学書院  

＜文献概要＞Point ●スポーツにおける世界共通のルールとして世界アンチ・ドーピング規程がある.これに基づいて,尿および血液を用いた検体分析が認定分析機関で行われている.●規則で禁止されている物質を検出するか,禁止物質を使用したことを証明すれば,規則違反を問うことができる.この過程で臨床検査技術や医学知識が大きく貢献している.●体外から摂取した内因性物質や半減期の短い禁止物質の検出には,アンチ・ドーピング分析に特有の分析法を組み合わせている.●継時的な検査データを基に禁止物質の使用を検出しようとする新たな手法も取り入れられるなど,現在もさらに洗練された分析技術の開発が進められている.

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記述言語：日本語   出版者・発行元：日本医科大学医学会  

DOI： 10.1272/manms.17.38

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その他リンク： http://id.ndl.go.jp/bib/031474839

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記述言語：日本語   出版者・発行元：(一社)日本創傷治癒学会  

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記述言語：日本語   出版者・発行元：医歯薬出版(株)  

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記述言語：日本語   出版者・発行元：(公社)日本薬剤師会  

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記述言語：日本語   出版者・発行元：(一社)日本抗加齢医学会  

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出版者・発行元：株式会社医学書院  

DOI： 10.11477/mf.2425201063

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記述言語：日本語   出版者・発行元：(株)中外医学社  

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記述言語：日本語   出版者・発行元：(株)中外医学社  

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記述言語：英語   掲載種別：記事・総説・解説・論説等（商業誌、新聞、ウェブメディア）  

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記述言語：日本語   出版者・発行元：(一社)日本創傷治癒学会  

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記述言語：日本語  

DOI： 10.14952/SEIKAGAKU.2018.900524

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記述言語：日本語   出版者・発行元：アニムス編集委員会  

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記述言語：日本語   出版者・発行元：(一社)日本高気圧環境・潜水医学会  

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記述言語：日本語   出版者・発行元：(一社)日本高気圧環境・潜水医学会  

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記述言語：日本語   出版者・発行元：(一社)日本臨床スポーツ医学会  

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記述言語：日本語   出版者・発行元：(一社)日本臨床スポーツ医学会  

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記述言語：日本語   出版者・発行元：(一社)日本臨床スポーツ医学会  

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記述言語：日本語   出版者・発行元：(公社)日本生化学会  

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記述言語：日本語   出版者・発行元：(一社)日本臨床スポーツ医学会  

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記述言語：日本語   出版者・発行元：(一社)日本臨床スポーツ医学会  

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記述言語：日本語   出版者・発行元：(一社)日本臨床スポーツ医学会  

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記述言語：日本語   出版者・発行元：(一社)日本臨床スポーツ医学会  

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記述言語：日本語  

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DOI： 10.1136/jnnp-2015-311750.64

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：SPRINGER WIEN  

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記述言語：日本語  

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記述言語：英語   出版者・発行元：SPRINGER INT PUBLISHING AG  

Pain is an important protective system that alerts organisms to actual or possible tissue damage. However, a variety of pathologies can lead to chronic pain that is no longer beneficial. Lesions or diseases of the somatosensory nervous system cause intractable neuropathic pain that occasionally lasts even after the original pathology subsides. Chronic inflammatory diseases like arthritis are also associated with severe pain. Because conventional analgesics such as non-steroidal anti-inflammatory drugs and opioids have limited efficacy and/or severe adverse events associated with long-term use, chronic pain remains a major problem in clinical practice. Recently, causal roles of microRNAs in chronic pain and their therapeutic potential have been emerging. microRNA expressions are altered not only at the primary origin of pain, but also along the somatosensory pathways. Notably, microRNA expressions are differentially affected depending on the causes of chronic pain. This chapter summarizes current insights into the roles of microRNAs in pain based on the underlying pathologies.

DOI： 10.1007/978-3-319-22671-2_3

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記述言語：日本語  

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記述言語：英語   掲載種別：書評論文，書評，文献紹介等   出版者・発行元：PERGAMON-ELSEVIER SCIENCE LTD  

Chronic pain is a debilitating syndrome caused by a variety of disorders, and represents a major clinical problem because of the lack of adequate medication. In chronic pain, massive changes in gene expression are observed in a variety of cells, including neurons and glia, in the overall somatosensory system from the sensory ganglia to the higher central nervous system. The protein expressions of hundreds of genes are thought to be post-transcriptionally regulated by a single type of microRNA in a sequence-specific manner. Recently, critical roles of microRNAs in the pathophysiology of chronic pain have been emerging. Genome-wide screenings of microRNA expression changes have been reported in a variety of painful conditions, including peripheral nerve injury, inflammatory diseases, cancer and spinal cord injury. The data obtained suggest that a wide range of microRNAs change their expressions in individual pain conditions, although the pathological significance of individual microRNAs as causal mediators in distinct pain conditions remains to be revealed for a limited number of microRNAs. Insights into the roles of microRNAs in chronic pain will enhance our understanding of the pathophysiology of chronic pain and allow prompt therapeutic application of microRNA-related drugs against intractable persistent pain. (C) 2014 Elsevier Ltd. All rights reserved.

DOI： 10.1016/j.neuint.2014.05.010

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：WILEY-BLACKWELL  

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：WILEY-BLACKWELL  

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記述言語：日本語   出版者・発行元：(株)朝日新聞社  

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記述言語：日本語   出版者・発行元：(一社)日本生理学会  

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：JAPANESE PHARMACOLOGICAL SOC  

Web of Science

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記述言語：日本語  

J-GLOBAL

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J-GLOBAL

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J-GLOBAL

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：JAPANESE PHARMACOLOGICAL SOC  

Web of Science

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：JAPANESE PHARMACOLOGICAL SOC  

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記述言語：日本語  

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記述言語：日本語   出版者・発行元：(一社)日本臨床スポーツ医学会  

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記述言語：日本語   出版者・発行元：(一社)日本臨床スポーツ医学会  

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その他リンク： https://search-tp.jamas.or.jp/index.php?module=Default&action=Link&pub_year=2013&ichushi_jid=J03582&link_issn=&doc_id=20131018480366&doc_link_id=%2Fdp2sport%2F2013%2F002104%2F420%2F5233-5233%26dl%3D0&url=https%3A%2F%2Fwww.medicalonline.jp%2Fjamas.php%3FGoodsID%3D%2Fdp2sport%2F2013%2F002104%2F420%2F5233-5233%26dl%3D0&type=MedicalOnline&icon=https%3A%2F%2Fjk04.jamas.or.jp%2Ficon%2F00004_2.gif

記述言語：日本語   出版者・発行元：栄研化学(株)  

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記述言語：日本語   出版者・発行元：(一社)日本臨床スポーツ医学会  

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記述言語：日本語   出版者・発行元：(一社)日本歯科麻酔学会  

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出版者・発行元：Springer  

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：SPRINGER JAPAN KK  

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：SPRINGER JAPAN KK  

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：MARY ANN LIEBERT INC  

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記述言語：英語  

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：OXFORD UNIV PRESS  

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記述言語：日本語   出版者・発行元：(一社)日本医薬品情報学会  

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：NATURE PUBLISHING GROUP  

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Web of Science

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記述言語：日本語  

J-GLOBAL

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：JAPANESE PHARMACOLOGICAL SOC  

Web of Science

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：JAPANESE PHARMACOLOGICAL SOC  

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記述言語：日本語   出版者・発行元：(一社)日本歯科麻酔学会  

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記述言語：日本語   出版者・発行元：(一社)日本臨床スポーツ医学会  

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その他リンク： https://search-tp.jamas.or.jp/index.php?module=Default&action=Link&pub_year=2011&ichushi_jid=J03582&link_issn=&doc_id=20110914480019&doc_link_id=%2Fdp2sport%2F2011%2F001903%2F021%2F0422-0424%26dl%3D0&url=https%3A%2F%2Fwww.medicalonline.jp%2Fjamas.php%3FGoodsID%3D%2Fdp2sport%2F2011%2F001903%2F021%2F0422-0424%26dl%3D0&type=MedicalOnline&icon=https%3A%2F%2Fjk04.jamas.or.jp%2Ficon%2F00004_2.gif

DOI： 10.1016/j.neures.2011.07.754

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：JAPANESE PHARMACOLOGICAL SOC  

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：ELSEVIER IRELAND LTD  

DOI： 10.1016/j.neures.2011.07.1577

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：ELSEVIER IRELAND LTD  

DOI： 10.1016/j.neures.2011.07.1408

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：JAPANESE PHARMACOLOGICAL SOC  

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：ELSEVIER IRELAND LTD  

DOI： 10.1016/j.neures.2011.07.958

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：ELSEVIER IRELAND LTD  

DOI： 10.1016/j.neures.2011.07.386

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：ELSEVIER IRELAND LTD  

DOI： 10.1016/j.neures.2011.07.1585

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：JAPANESE PHARMACOLOGICAL SOC  

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記述言語：日本語  

J-GLOBAL

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記述言語：日本語   出版者・発行元：(一社)日本臨床神経生理学会  

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記述言語：日本語   出版者・発行元：(一社)日本臨床神経生理学会  

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記述言語：日本語   出版者・発行元：(一社)日本臨床スポーツ医学会  

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記述言語：英語   出版者・発行元：日本神経化学会  

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記述言語：英語   出版者・発行元：日本神経化学会  

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記述言語：日本語   出版者・発行元：(株)文光堂  

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その他リンク： https://search-tp.jamas.or.jp/index.php?module=Default&action=Link&pub_year=2010&ichushi_jid=J01715&link_issn=&doc_id=20100204210012&doc_link_id=%2Fag9rsige%2F2010%2F002702%2F014%2F0203-0209%26dl%3D0&url=https%3A%2F%2Fwww.medicalonline.jp%2Fjamas.php%3FGoodsID%3D%2Fag9rsige%2F2010%2F002702%2F014%2F0203-0209%26dl%3D0&type=MedicalOnline&icon=https%3A%2F%2Fjk04.jamas.or.jp%2Ficon%2F00004_2.gif

記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：JAPANESE PHARMACOLOGICAL SOC  

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：SPRINGER TOKYO  

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：SPRINGER TOKYO  

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：ELSEVIER IRELAND LTD  

DOI： 10.1016/j.neures.2010.07.2305

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：SPRINGER TOKYO  

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：ELSEVIER IRELAND LTD  

DOI： 10.1016/j.neures.2010.07.142

Web of Science

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：ELSEVIER IRELAND LTD  

DOI： 10.1016/j.neures.2010.07.143

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記述言語：日本語   出版者・発行元：(一社)日本臨床神経生理学会  

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：ELSEVIER IRELAND LTD  

DOI： 10.1016/j.neures.2009.09.145

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：ELSEVIER IRELAND LTD  

DOI： 10.1016/j.neures.2009.09.956

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：ELSEVIER IRELAND LTD  

DOI： 10.1016/j.neures.2009.09.1286

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：ELSEVIER IRELAND LTD  

DOI： 10.1016/j.neures.2009.09.1000

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：ELSEVIER IRELAND LTD  

DOI： 10.1016/j.neures.2009.09.1351

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：SPRINGER TOKYO  

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：JAPANESE PHARMACOLOGICAL SOC  

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：JAPANESE PHARMACOLOGICAL SOC  

Web of Science

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：SPRINGER TOKYO  

Web of Science

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記述言語：英語   出版者・発行元：一般社団法人 日本生物物理学会  

DOI： 10.2142/biophys.49.S93_7

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記述言語：日本語   出版者・発行元：金原出版  

CiNii Books

J-GLOBAL

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記述言語：日本語   出版者・発行元：金原出版  

CiNii Books

J-GLOBAL

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記述言語：日本語   出版者・発行元：(株)文光堂  

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その他リンク： https://search-tp.jamas.or.jp/index.php?module=Default&action=Link&pub_year=2008&ichushi_jid=J01715&link_issn=&doc_id=20080501060001&doc_link_id=%2Fag9rsige%2F2008%2F002505%2F002%2F0421-0425%26dl%3D0&url=https%3A%2F%2Fwww.medicalonline.jp%2Fjamas.php%3FGoodsID%3D%2Fag9rsige%2F2008%2F002505%2F002%2F0421-0425%26dl%3D0&type=MedicalOnline&icon=https%3A%2F%2Fjk04.jamas.or.jp%2Ficon%2F00004_2.gif

記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：ELSEVIER IRELAND LTD  

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：JAPANESE PHARMACOLOGICAL SOC  

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出版者・発行元：日本生理学会  

The dentate gyrus of the hippocampus has been implicated in behavioral effects of antidepressant drugs including selective serotonin reuptake inhibitors (SSRIs). The mossy fiber (MF) is the sole output of dentate granule cells and thus plays a pivotal role in regulation of hippocampal neuronal activity by the dentate gyrus. To test possible involvement of modification of the MF synapse in behavioral changes caused by SSRIs, we examined effects of chronic oral administration of fluoxetine, a widely used SSRI, on behaviors and the MF synaptic transmission in adult mice. Fluoxetine had multiple effects on behaviors and the MF synaptic transmission in a dose-dependent manner. At a lower dose, the fluoxetine treatment reduced activity of mice in a novel environment and affected modulation of the MF synaptic transmission by serotonin without noticeable effects on the synaptic transmission itself. At higher doses, however, it markedly increased fluctuation of home cage activity and anxiety-related behaviors, and also greatly reduced the large synaptic facilitation that is a characteristic of the mature MF synapse. This synaptic change was well correlated with the behavioral changes. In the dentate gyrus of mice treated with the higher dose of fluoxetine, expression of calbindin, a marker for the mature granule cells, was significantly reduced. These results indicate that fluoxetine at high doses can disrupt the maturation state of the dentate gyrus and the MF synaptic transmission in adult mice, which may underlie the destabilized behavior in the treated mice. &lt;b&gt;[J Physiol Sci. 2008;58 Suppl:S35]&lt;/b&gt;

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：ELSEVIER IRELAND LTD  

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：ELSEVIER IRELAND LTD  

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：ELSEVIER IRELAND LTD  

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記述言語：日本語  

CiNii Books

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記述言語：日本語  

DOI： 10.1272/manms.3.56

J-GLOBAL

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記述言語：英語   出版者・発行元：(公社)日本薬理学会  

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記述言語：日本語   出版者・発行元：(公社)日本薬理学会  

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：ELSEVIER IRELAND LTD  

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：JAPANESE PHARMACOLOGICAL SOC  

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：ELSEVIER IRELAND LTD  

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：JAPANESE PHARMACOLOGICAL SOC  

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：JAPANESE PHARMACOLOGICAL SOC  

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記述言語：英語  

DOI： 10.1272/jnms.73.360

Scopus

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記述言語：英語   掲載種別：研究発表ペーパー・要旨（国際会議）   出版者・発行元：AMER SOC HEMATOLOGY  

DOI： 10.1182/blood.V108.11.4242.4242

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記述言語：日本語   出版者・発行元：(株)先端医学社  

近年、脂肪組織からもさまざまな細胞に分化することができる体性幹細胞が採取可能であることが報告された。この脂肪組織由来幹細胞は、いまだその生物学的特性は未知である部分が多いが、わずかな脂肪組織から少ない侵襲で、骨髄にくらべて大量の幹細胞を採取することができるため、注目されている。本稿では、脂肪組織由来幹細胞を用いた神経分化誘導について、自験例を中心に、文献的考察を加え、また今後の課題などについて考察した。(著者抄録)

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記述言語：日本語   出版者・発行元：克誠堂出版(株)  

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