研究業績

原著論文

  • Yamada H, Hunger enhances consistent economic choices in non-human primates. Sci Rep. 2017 May 24;7(1):2394, DOI:10.1038/s41598-017-02417-5
  • McCairn KW, Nagai Y, Hori Y, Ninomiya T, Kikuchi E, Lee JY, Suhara T, Iriki A, Minamimoto T, Takada M, Isoda M, Matsumoto M, A Primary Role for Nucleus Accumbens and Related Limbic Network in Vocal Tics. Neuron 89, 2016, DOI:10.1016/j.neuron.2015.12.025
  • Yamada H, Inokawa H, Hori Y, Pan X, Matsuzaki R, Nakamura K, Samejima K, Shidara M, Kimura M, Sakagami M, Minamimoto T, Characteristics of fast-spiking neurons in the striatum of behaving monkeys. Neurosci Res. 2016 Apr,Vol.105, 2-18, DOI:10.1016/j.neures.2015.10.003
  • Kawai T, Yamada H, Sato N, Takada M, Matumoto M, Roles of the lateral habenula and anterior cingulate cortex in negative outcome monitoring and behavioral adjustment in nonhuman primates. Neuron 88, 2015, DOI:10.1016/j.neuron.2015.09.030
  • Inoue K, Takada M, Matsumoto M, Neuronal and behavioural modulations by pathway-selective optogenetic stimulation of the primate oculomotor system. Nature Communications 6, Article number:8378, 2015, DOI:10.1038/ncomms9378
  • Koganezawa T, Paton JF,Intrinsic chemosensitivity of rostral ventrolateral medullarysympathetic premotor neurons in the in situ arterially perfusedpreparation of rats. Experimental Physiology Vol.99(11), 1453-66, 2014
  • Matsumoto M, Takada M, Distinct representations of cognitive and motivational signals in midbrain dopamine neurons. Neuron Vol.79(5), 1011-1024, 2013
  • Nakamagoe K, Fujizuka N, Koganezawa T, Yamaguchi T, Tamaoka A, Downbeat nystagmus associated with damage to the medial longitudinal fasciculus of the pons: a vestibular balance control mechanism via the lower brainstem paramedian tract neurons. Journal of Neurological Science Vol.328(1-2), 98-101, 2013
  • Yamada H, Tymula A, Louie K, Glimcher PW, Thirst-dependent risk preferences in monkeys identify a primitive form of wealth. Proc Natl Acad Sci U S A Vol.110(39),15788-15793, 2013
  • Yamada H, Inokawa H, Matsumoto N, Ueda Y, Enomoto K, Kimura M, Coding of the long-term value of multiple future rewards in the primate striatum. Journal of Neurophysiology Vol.109, 1140-1151,2013
  • Nakamagoe K, Fujizuka N, Koganezawa T, Shimizu K, Takiguchi S, Horaguchi T, Ishii K, Tamaoka A, Residual central nervous system damage due to organoarsenic poisoning. Neurotoxicology & Teratology Vol.37, 33-38, 2013
  • Sabino-Silva R, Ceroni A, Koganezawa T, Michelini LC, Machado UF, Antunes VR*, Baroreceptor-mediated activation of sympathetic nerve activity to salivary glands. Physiology & Behavior Vol.107(3), 390-396, 2012
  • Nakamagoe K, Shimizu K, Koganezawa T, Tamaoka A, Downbeat nystagmus due to a paramedian medullary lesion. Journal of Clinical Neuroscience Vol.19(11), 1597-1599, 2012
  • Nakamagoe K, Mamada N, Shiigai M, Shimizu K, Koganezawa T, Tamaoka A, Recurrent isolated abducens nerve paresis associated with persistent trigeminal artery variant. Internal Medicine Vol.51(16), 2213-6, 2012
  • Minamimoto T, Yamada H, Hori Y, Suhara T, Hydration level is an internal variable for computing motivation to obtain water rewards in monkeys. Experimental Brain Research Vol.218(4), 609-618, 2012
  • Matsumoto M, Hikosaka O, Electrical stimulation of the primate lateral habenula suppresses saccadic eye movement through a learning mechanism. PLoS ONE Vol.6, e26701, 2011
  • Koganezawa T, Okada Y, Terui N, Paton JF, Oku Y, A μ-opioid receptor agonist DAMGO induces rapid breathing in the arterially perfused in situ preparation of rat. Respiratory Physiology & Neurobiology Vol. 177(2), 207-211
  • Yamada H, Inokawa H, Matsumoto N, Ueda Y, Kimura M, Neuronal basis for evaluating selected action in the primate striatum. European Journal of Neuroscience Vol.34(3), 489-506, 2011
  • Muranishi M, Inokawa H, Yamada H, Ueda Y, Matsumoto N, Nakagawa N, Komura M, Inactivation of the putamen selectively impairs reward history-based action selection. Experimental Brain Research Vol.209(2), 235-246, 2011
  • Bromberg-Martin ES, Matsumoto M, Nakahara H, Hikosaka O, Multiple timescales of memory in lateral habenula and dopamine neurons. Neuron Vol.67, 499-510, 2010
  • Bromberg-Martin ES, Matsumoto M, Hikosaka O, Distinct tonic and phasic anticipatory activity in lateral habenula and dopamine neurons. Neuron Vol.67, 144-55, 2010
  • Bromberg-Martin ES, Matsumoto M, Hong S, Hikosaka O, A pallidus-habenula-dopamine pathway signals inferred stimulus values. Journal of Neurophysiology Vol.104, 1068-76, 2010
  • Koganezawa T, Shimomura Y, Terui N, The viscerosympathetic response in rabbits is mediated by GABAergic and glutamatergic inputs into the sympathetic premotor neurons of the rostral ventrolateral medulla. Experimental Physiology Vol. 95(11), 1061-1070, 2010
  • Wang R, Koganezawa T, Terui N, Differential responses of sympathetic premotor neurons in the rostral ventrolateral medulla to stimulation of the dorsomedial hypothalamus in rabbits, Brain Research Vol.1356, 44-53, 2010
  • Nishimaru H, Koganezawa T, Kakizaki M, Ebihara T, Yanagawa Y, Inhibitory synaptic modulation of renshaw cell activity in the lumbar spinal cord of neonatal mice. Journal of Neurophysiology Vol.103(6), 3437-3447, 2010
  • Yamada H, Louie K, Glimcher PW, Controlled water intake: a method for objectively evaluating thirst and hydration state in monkeys by the measurement of blood osmolality. J Neurosci Methods Vol.191(1), 83-89, 2010
  • Inokawa H, Yamada H, Matsumoto N, Muranishi M, Kimura M, Juxtacellular labeling of tonically active neurons and phasically active neurons in the rat striatum. Neuroscience Vol168(2) 395-404, 2010
  • Matsumoto M, Hikosaka O, Two types of dopamine neuron distinctly convey positive and negative motivational signals. Nature Vol.459, 837-41, 2009
  • Matsumoto M, Hikosaka O, Representation of negative motivational value in the primate lateral habenula. Nature Neuroscience Vol.12, 77-84, 2009
  • Nakamura K, Matsumoto M, Hikosaka O, Reward-dependent modulation of neuronal activity in the primate dorsal raphe nucleus. The Journal of Neuroscience Vol.28, 5331-43, 2008
  • Matsumoto M, Hikosaka O, Lateral habenula as a source of negative reward signals in dopamine neurons. Nature Vol.447, 1111-5, 2007
  • Koganezawa T, Terui N, Differential responsiveness of RVLM sympathetic premotor neurons to hypoxia in rabbits. American Journal of Physiology - Heart and Circulatory Physiology Vol.292, H415-H425, 2007
  • Yamada H, Matsumoto N, Kimura M, History- and current instruction-based coding of forthcoming behavioral outcomes in the striatum. Journal of Neurophysiol Vol.98, 3557-3567, 2007
  • Matsumoto M, Togawa M, Komatsu H, Air-driven eye shutter system for vision experiments using awake behaving animals. Journal of Neuroscience Methods Vol.153, 130-134, 2006
  • Koganezawa T, Ishikawa T, Fujita Y, Yamashita T, Tajima T, Honda M, Nakayama K, British Journal of Pharmacology Vol.148(5), 579-586, 2006
  • Matsumoto M, Komatsu H, Neural responses in the macaque V1 to bar stimuli with various lengths presented on the blind spot. Journal of Neurophysiology Vol.93, 2374-87, 2005
  • Koganezawa T, Terui N, Reticulospinal neurons inactivated by warming of the preoptic area and anterior hypothalamus of rabbits. Brain Research Vol. 1061(1), 13-26, 2005
  • Yamada H, Matsumoto N, Kimura M, Tonically active neurons in the primate caudate nucleus and putamen differentially encode instructed motivational outcomes of action, The Journal of Neuroscience vol.24(14), 3500-3510, 2004
  • Kimura M, Yamada H, Matsumoto N, Tonically active neurons in the striatum encode motivational contexts of action, Brain and Development Vol.25(1), S20-S23, 2003
  • Kimura M, Matsumoto, N, Okahashi K, Ueda Y, Satoh T, Minamimoto T, Sakamoto M, Yamada H, Goal-directed, serial and synchronous activation of neurons in the primate striatum. Neuroreport Vol.14(6), 799-802, 2003
  • Ootsuka Y, Rong W, Kishi E, Koganezawa T, Terui N, Rhythmic activities of the sympatho-excitatory neurons in the medulla of rabbits: neurons controlling cutaneous vasomotion. Autonomic Neuroscience - Basic & Clinical Vol.101(1-2), 48-59, 2002

総説ほか

  • Matsumoto M, Dopamine Signals and Physiological Origin of Cognitive Dysfunction in Parkinson's Disease. Movement Disorders, Vol.30(4), 472-483, 2015, DOI: 10.1002/mds.26177
  • 山田洋, 榎本一紀, 罰を表現するドーパミン細胞と手綱核. Clinical Neuroscience, 2014
  • 松本正幸, 報酬系と手綱核. Clinical Neuroscience Vol.29, 482-3, 2011
  • Bromberg-Martin ES, Matsumoto M, Hikosaka O, Dopamine in motivational control: rewarding, aversive, and alerting. Neuron Vol.68, 815-34, 2010
  • 松本正幸, 報酬機能における外側手綱核と中脳ドーパミンニューロンの役割. Brain and Nerve Vol.61, 389-96, 2009
  • Matsumoto M, Hikosaka O, Negative motivational control of saccadic eye movement by the lateral habenula. Progress in Brain Research Vol.171, 399-402, 2008
  • Hikosaka O, Bromberg-Martin E, Hong S, Matsumoto M, New insights on the subcortical representation of reward. Current Opinion in Neurobiology Vol.18, 203-8, 2008
  • Koganezawa T, Shimomura Y, Terui N, The role of the RVLM neurons in the viscero-sympathetic reflex: a mini review. Autonomic Neuroscience - Basic & Clinical, Vol.142(1-2), 17-19, 2008
  • 山田洋, 複数ステップに渡る行動選択過程において線条体がコードする強化因子. THE BRAIN & NEURAL NETWORKS, 2008
  • 小金澤禎史、照井直人 延髄腹外側部と循環調節 Clinical Neuroscience Vol.25(4), 405-407, 2007
  • Koganezawa T, Terui N Cardiovascular center in the medulla; it’s functional differentiation. Central Mechanisms of Cardiovascular Regulation 75-82, 2007
  • 小金澤禎史、照井直人, 血圧の神経性調節. Brain Medical Vol.17(2), 41-46, 2005
  • Kimura M, Matsumoto N, Ueda Y, Satoh T, Minamimoto T, Yamada H, Involvement of the basal ganglia and dopamine system in learning and execution of goal-directed behavior. Catecholamine Research, Vol.52, 377-379, 2002

招待講演

  • 松本正幸, 中脳ドーパミンニューロンの認知シグナル,第91回日本生理学会大会, 鹿児島, 2014
  • 松本正幸,ドーパミンニューロンは何をコードしているのか?/What signals do dopamine neurons encode?, 第14回冬のワークショップ-脳と心のメカニズム , 北海道, 2014
  • Matsumoto M, Midbrain dopamine neurons are divided into anatomical groups encoding distinct signals. 11th International Basal Ganglia Society Meeting, Eilat, Israel, 2013
  • Matsumoto M, Midbrain dopamine neurons are divided into different functional groups. The Tenth International Catecholamine Symposium, Pacific Grove, USA, 2012
  • 松本正幸, 脳の報酬機能におけるドーパミンニューロンと外側手綱核の役割, 日本動物心理学会第72回大会, 関西学院大学, 2012
  • 松本正幸, 脳の報酬系:外側手綱核とドーパミンニューロンの役割, 平成23年度アルコール・薬物依存関連学会合同学術総会, 名古屋, 2011
  • Matsumoto M, Motivational signals in the lateral habenula and dopamine neurons. 10th Anniversary International Parkinson’s Disease Symposium, Takamatsu, 2011
  • 松本正幸, 動機付けによる行動制御:中脳ドーパミンニューロンと外側手綱核の役割, 平成22年度生理学研究所研究会, 生理学研究所, 2011
  • Matsumoto M, Role of the lateral habenula in motivational control of animal behaviors. 49th Annual Meeting of American College of Neuropsychopharmacology, Miami, USA, 2010
  • 松本正幸, 報酬機能におけるドーパミンニューロンと外側手綱核の役割, 第25回日本大脳基底核研究会, 福島, 2010
  • Matsumoto M, Motivational signals in the lateral habenula and dopamine neurons, International Symposium: New Perspectives on Neural Mechanisms of Cognition and Action(文部科学省特定領域研究「統合脳」、玉川大学Global COEプログラム共催), 玉川大学, 2009
  • Koganezawa T, Wang R, Terui N, Differential responses of sympathetic premotor neurons in the medulla oblongata during defense response in the rabbit. Autonomic Adjustments to Environmental Challenges, Newcastle, Australia, 2009