Updated on 2022/07/13

写真a

 
HIROTUNE Shinji
 
Organization
Graduate School of Medicine Department of Basic Medical Science Professor
School of Medicine Department of Medical Science
Title
Professor
Affiliation
Institute of Medicine

Position

  • Graduate School of Medicine Department of Basic Medical Science 

    Professor  2022.04 - Now

  • School of Medicine Department of Medical Science 

    Professor  2022.04 - Now

Degree

  • Doctor of Medical Science ( Osaka University )

Research Areas

  • Life Science / Medical biochemistry  / Neuroscience

Research Interests

  • neuronal degeneration

  • intracellular transport

  • neural development

Research subject summary

  • ほ乳類の脳発生のメカニズム解明と神経疾患の原因遺伝子の探索。 形態形成を制御する遺伝子の機能解析と神経変性疾患のメカニズム解明。

Research Career

  • Neuronal Development

    Individual

    1900.04 

Job Career (off-campus)

  • 埼玉医科大学、ゲノム医学研究センター   神経疾患研究室   助教授

    2001.08 - 2002.03

  • 動物遺伝研究所   主任研究員

    1998.04 - 2001.07

  • 米国国立衛生研究所、ヒトゲノム研究センター   遺伝疾患研究室   ポストドクトラルフェロー

    1995.04 - 1998.03

  • 理化学研究所   研究協力員

    1993.04 - 1995.03

Education

  • Osaka University   Doctor's Course  

    1989.04 - 1993.03

  • Osaka City University    

    1981.04 - 1987.03

Papers

  • シヌクレイン変異によるパーキンソン病の分子機構解明 Reviewed

    広常 真治

    (公財)上原記念生命科学財団 上原記念生命科学財団研究報告集   31   1 - 5   2017.12

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    Publishing type:Research paper (scientific journal)   Kind of work:Single Work  

    家族性パーキンソン病の原因遺伝子・アルファシヌクレインは非定型微小管の重要な構成因子であり、細胞質ダイニンが順行性に運搬されるのに必要であることを証明した。

  • Alpha-synuclein facilitates to form short unconventional microtubules that have a unique function in the axonal transport Reviewed

    Toba Shiori, Jin Mingyue, Yamada Masami, Kumamoto Kanako, Matsumoto Sakiko, Yasunaga Takuo, Fukunaga Yuko, Miyazawa Atsuo, Fujita Sakiko, Itoh Kyoko, Fushiki Shinji, Kojima Hiroaki, Wanibuchi Hideki, Arai Yoshiyuki, Nagai Takeharu, Hirotsune Shinji

    SCIENTIFIC REPORTS   7 ( 1 )   16386   2017.11( ISSN:2045-2322

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    Publishing type:Research paper (scientific journal)  

    家族性パーキンソン病の原因遺伝子・アルファシヌクレインは非定型微小管の重要な構成因子であり、細胞質ダイニンが順行性に運搬されるのに必要であることを証明した。

    DOI: 10.1038/s41598-017-15575-3

    PubMed

  • Developmental downregulation of LIS1 expression limits axonal extension and allows axon pruning Reviewed

    Kumamoto Kanako, Iguchi Tokuichi, Ishida Ryuichi, Uemura Takuya, Sato Makoto, Hirotsune Shinji

    BIOLOGY OPEN   6 ( 7 )   1041 - 1055   2017.07( ISSN:2046-6390

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    滑脳症の原因遺伝子・LIS1は神経細胞の再生に必須であることを証明した。

    DOI: 10.1242/bio.025999

    PubMed

  • Katanin p80, NuMA and cytoplasmic dynein cooperate to control microtubule dynamics Reviewed

    Jin Mingyue, Pomp Oz, Shinoda Tomoyasu, Toba Shiori, Torisawa Takayuki, Furuta Ken'ya, Oiwa Kazuhiro, Yasunaga Takuo, Kitagawa Daiju, Matsumura Shigeru, Miyata Takaki, Tan Thong Teck, Reversade Bruno, Hirotsune Shinji

    SCIENTIFIC REPORTS   7   39902   2017.01( ISSN:2045-2322

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    滑脳症-小脳症の原因遺伝子・カタニンP80はNuMAとともに微小管ネットワークを制御することを証明した。

    DOI: 10.1038/srep39902

    PubMed

  • Ndel1 suppresses ciliogenesis in proliferating cells by regulating the trichoplein-Aurora A pathway Reviewed

    Inaba Hironori, Goto Hidemasa, Kasahara Kousuke, Kumamoto Kanako, Yonemura Shigenobu, Inoko Akihito, Yamano Shotaro, Wanibuchi Hideki, He Dongwei, Goshima Naoki, Kiyono Tohru, Hirotsune Shinji, Inagaki Masaki

    JOURNAL OF CELL BIOLOGY   212 ( 4 )   409 - 423   2016.02( ISSN:0021-9525

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    Publishing type:Research paper (scientific journal)  

    Ndel1は繊毛の形成に重要な役割を果たしていることを証明した。

    DOI: 10.1083/jcb.201507046

    PubMed

  • Lis1 restricts the conformational changes in cytoplasmic dynein on microtubules Reviewed

    Toba Shiori, Koyasako Kotaro, Yasunaga Takuo, Hirotsune Shinji

    MICROSCOPY   64 ( 6 )   419 - 427   2015.12( ISSN:2050-5698

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    LIS1は細胞質ダイニンに対してアポ状態に固定し微小管との親和性を高めることを明らかにした。

    DOI: 10.1093/jmicro/dfv055

    PubMed

  • DBZ Regulates Cortical Cell Positioning and Neurite Development by Sustaining the Anterograde Transport of Lis1 and DISC1 through Control of Ndel1 Dual-Phosphorylation Reviewed

    Okamoto Masayuki, Iguchi Tokuichi, Hattori Tsuyoshi, Matsuzaki Shinsuke, Koyama Yoshihisa, Taniguchi Manabu, Komada Munekazu, Xie Min-Jue, Yagi Hideshi, Shimizu Shoko, Konishi Yoshiyuki, Omi Minoru, Yoshimi Tomohiko, Tachibana Taro, Fujieda Shigeharu, Katayama Taiichi, Ito Akira, Hirotsune Shinji, Tohyama Masaya, Sato Makoto

    JOURNAL OF NEUROSCIENCE   35 ( 7 )   2942 - 2958   2015.02( ISSN:0270-6474

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    Ndel1とDISCは神経細胞が神経突起を伸展させる際に協調的に機能することを明らかにした。

    DOI: 10.1523/JNEUROSCI.5029-13.2015

    PubMed

  • Ndel1 suppresses unscheduled cilia formation in proliferating cells by regulating the trichoplein-Aurora-A pathway. Reviewed

    Inaba H., Goto H., Kasahara K., Kumamoto K., Yonemura S., Inoko A., Yamano S., Wanibuchi H., He D., Goshima N., Kiyono T., Hirotsune S., Inagaki M.

    MOLECULAR BIOLOGY OF THE CELL   26   2015( ISSN:1059-1524

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    Ndel1は繊毛の形成に重要な役割を果たしていることを証明した。

  • 細胞質ダイニンの制御機構の解明 Reviewed

    広常 真治

    (公財)上原記念生命科学財団 上原記念生命科学財団研究報告集   28   1 - 6   2014.12

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    Publishing type:Research paper (scientific journal)   Kind of work:Single Work  

    細胞質ダイニンの制御機構について検討した。細胞質ダイニンはLIS1とRab6に細胞内で結合していることが証明された。後根神経節細胞に発現させたEGFP-DICとTMR-Halo-Rab6a(Q72L)を解析し、逆行性の共局在と移動を認めた。EGFP-DICとTMR-Halo-Rab6a(Q72L)の逆行性の共局在と移動は分子の結合を反映した特異性の高いものであることが示唆された。LIS1と結合した細胞質ダイニンは微小管上でアイドリング状態になり静止しているが、Rab6a(Q72L)が結合した瞬間にLIS1が解離し、Rab6a(Q72L)-細胞質ダイニンの複合体が運動を再開した。Rab6は微小管プラス端においてアイドリング状態の細胞質ダイニンからLIS1を遊離させ再びモータータンパク質の活性を回復させた。Arl3とLC8がアンローディングの重要な制御因子であった。

  • Arl3 and LC8 regulate dissociation of dynactin from dynein Reviewed

    Jin Mingyue, Yamada Masami, Arai Yoshiyuki, Nagai Takeharu, Hirotsune Shinji

    NATURE COMMUNICATIONS   5   5295   2014.10( ISSN:2041-1723

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    Arl3とLC8は協調して細胞質ダイニンからカーゴを遊離させる機能があることを明らかにした。

    DOI: 10.1038/ncomms6295

    PubMed

  • The Phosphatase PP4c Controls Spindle Orientation to Maintain Proliferative Symmetric Divisions in the Developing Neocortex Reviewed

    Xie Yunli, Jueschke Christoph, Esk Christopher, Hirotsune Shinji, Knoblich Juergen A.

    NEURON   79 ( 2 )   254 - 265   2013.07( ISSN:0896-6273

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    中心体特異的な脱リン酸化酵素・PP4は微小管ネットワークの制御を通して神経細胞の極性を制御していることを証明した。

    DOI: 10.1016/j.neuron.2013.05.027

    PubMed

  • Rab6a releases LIS1 from a dynein idling complex and activates dynein for retrograde movement Reviewed

    Yamada Masami, Kumamoto Kanako, Mikuni Shintaro, Arai Yoshiyuki, Kinjo Masataka, Nagai Takeharu, Tsukasaki Yoshikazu, Watanabe Tomonobu M., Fukui Mitsuru, Jin Mingyue, Toba Shiori, Hirotsune Shinji

    NATURE COMMUNICATIONS   4   2033   2013.06( ISSN:2041-1723

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    Rab6aは細胞質ダイニンからLIS1を解離させ、活性化状態にすると同時にカーゴとの結合を促進することを証明した。

    DOI: 10.1038/ncomms3033

    PubMed

  • Kinesin-1 regulates dendrite microtubule polarity in Caenorhabditis elegans Reviewed

    Yan Jing, Chao Dan L., Toba Shiori, Koyasako Kotaro, Yasunaga Takuo, Hirotsune Shinji, Shen Kang

    ELIFE   2   e00133   2013.03( ISSN:2050-084X

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    キネシンが微小管ネットワークを制御し、細胞の極性の制御を行なっていることを証明した。

    DOI: 10.7554/eLife.00133

    PubMed

  • Post-natal treatment by a blood-brain-barrier permeable calpain inhibitor, SNJ1945 rescued defective function in lissencephaly Reviewed

    Toba Shiori, Tamura Yasuhisa, Kumamoto Kanako, Yamada Masami, Takao Keizo, Hattori Satoko, Miyakawa Tsuyoshi, Kataoka Yosky, Azuma Mitsuyoshi, Hayasaka Kiyoshi, Amamoto Masano, Tominaga Keiko, Wynshaw-Boris Anthony, Wanibuchi Hideki, Oka Yuichiro, Sato Makoto, Kato Mitsuhiro, Hirotsune Shinji

    SCIENTIFIC REPORTS   3   1224   2013.02( ISSN:2045-2322

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    LIS1はカルパインによって分解されることを明らかにし、カルパイン阻害剤によってLIS1の分解を抑制することが滑脳症の新たな治療戦略となることを証明した。

    DOI: 10.1038/srep01224

    PubMed

  • ALLN rescues an in vitro excitatory synaptic transmission deficit in Lis1 mutant mice Reviewed

    Sebe Joy Y., Bershteyn Marina, Hirotsune Shinji, Wynshaw-Boris Anthony, Baraban Scott C.

    JOURNAL OF NEUROPHYSIOLOGY   109 ( 2 )   429 - 436   2013.01( ISSN:0022-3077

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    LIS1はカルパインによって分解されることを明らかにし、カルパイン阻害剤によってLIS1の分解を抑制することが滑脳症の新たな治療戦略となることを証明した。

    DOI: 10.1152/jn.00431.2012

    PubMed

  • Progesterone induced mesenchymal differentiation and rescued cystic dilation of renal tubules of Pkd1(-/-) mice Reviewed

    Wachi Tomoka, Yoshida Noriyuki, Funae Yoshihiko, Ueno Munehisa, Germino Gregory G., Hirotsune Shinji, Deguchi Nobuhiro

    BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS   425 ( 2 )   212 - 218   2012.08( ISSN:0006-291X

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    Progesteroneは細胞分化を誘導し、多発性嚢胞腎の治療に用いることができることを明らかにした。

    DOI: 10.1016/j.bbrc.2012.07.070

    PubMed

  • Activation of Aurora-A Is Essential for Neuronal Migration via Modulation of Microtubule Organization Reviewed

    Takitoh Takako, Kumamoto Kanako, Wang Chen-Chi, Sato Makoto, Toba Shiori, Wynshaw-Boris Anthony, Hirotsune Shinji

    JOURNAL OF NEUROSCIENCE   32 ( 32 )   11050 - 11066   2012.08( ISSN:0270-6474

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    Aurora-Aは神経細胞遊走の際に微小管ネットワークの再編を制御することを明らかにした。

    DOI: 10.1523/JNEUROSCI.5664-11.2012

    PubMed

  • A unique role of dynein and nud family proteins in corticogenesis Reviewed

    Toba Shiori, Hirotsune Shinji

    NEUROPATHOLOGY   32 ( 4 )   432 - 439   2012.08( ISSN:0919-6544

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    LIS1、Ndel,NudCは細胞質ダイニン、キネシン、微小管ネットワークの制御を通して神経細胞の分化、遊走に重要な役割を果たしていることを明らかにした。

    DOI: 10.1111/j.1440-1789.2012.01301.x

    PubMed

  • Trichoplein controls microtubule anchoring at the centrosome by binding to Odf2 and ninein Reviewed

    Ibi Miho, Zou Peng, Inoko Akihito, Shiromizu Takashi, Matsuyama Makoto, Hayashi Yuko, Enomoto Masato, Mori Daisuke, Hirotsune Shinji, Kiyono Tohru, Tsukita Sachiko, Goto Hidemasa, Inagaki Masaki

    JOURNAL OF CELL SCIENCE   124 ( 6 )   857 - 864   2011.03( ISSN:0021-9533

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    TrichopleinはNdel1とともに一次の繊毛形成の形成に重要な役割を果たしていることを明らかにした。

    DOI: 10.1242/jcs.075705

    PubMed

  • Global Developmental Gene Expression and Pathway Analysis of Normal Brain Development and Mouse Models of Human Neuronal Migration Defects Reviewed

    Pramparo Tiziano, Libiger Ondrej, Jain Sonia, Li Hong, Youn Yong Ha, Hirotsune Shinji, Schork Nicholas J., Wynshaw-Boris Anthony

    PLOS GENETICS   7 ( 3 )   e1001331   2011.03( ISSN:1553-7404

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    神経発生過程における発現遺伝子を網羅的に解析した。

    DOI: 10.1371/journal.pgen.1001331

    PubMed

  • Functional Dissection of LIS1 and NDEL1 Towards Understanding the Molecular Mechanisms of Cytoplasmic Dynein Regulation Reviewed

    Torisawa Takayuki, Nakayama Akiko, Furuta Ken'ya, Yamada Masami, Hirotsune Shinji, Toyoshima Yoko Y.

    JOURNAL OF BIOLOGICAL CHEMISTRY   286 ( 3 )   1959 - 1965   2011.01( ISSN:0021-9258

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    LIS1、Ndel,NudCは細胞質ダイニン、キネシン、微小管ネットワークの制御を通して神経細胞の分化、遊走に重要な役割を果たしていることを明らかにした。

    DOI: 10.1074/jbc.M110.169847

    PubMed

  • Lissencephaly: Mechanistic insights from animal models and potential therapeutic strategies Reviewed

    Wynshaw-Boris Anthony, Pramparo Tiziano, Youn Yong Ha, Hirotsune Shinji

    SEMINARS IN CELL & DEVELOPMENTAL BIOLOGY   21 ( 8 )   823 - 830   2010.10( ISSN:1084-9521

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    LIS1はカルパインによって分解されることを明らかにし、カルパイン阻害剤によってLIS1の分解を抑制することが滑脳症の新たな治療戦略となることを証明した。

    DOI: 10.1016/j.semcdb.2010.07.008

    PubMed

  • A novel strategy for therapeutic intervention for the genetic disease: Preventing proteolytic cleavage using small chemical compound Reviewed

    Yamada Masami, Hirotsune Shinji, Wynshaw-Boris Anthony

    INTERNATIONAL JOURNAL OF BIOCHEMISTRY & CELL BIOLOGY   42 ( 9 )   1401 - 1407   2010.09( ISSN:1357-2725

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    LIS1はカルパインによって分解されることを明らかにし、カルパイン阻害剤によってLIS1の分解を抑制することが滑脳症の新たな治療戦略となることを証明した。

    DOI: 10.1016/j.biocel.2010.05.017

    PubMed

  • Novel Embryonic Neuronal Migration and Proliferation Defects in Dcx Mutant Mice Are Exacerbated by Lis1 Reduction Reviewed

    Pramparo Tiziano, Youn Yong Ha, Yingling Jessica, Hirotsune Shinji, Wynshaw-Boris Anthony

    JOURNAL OF NEUROSCIENCE   30 ( 8 )   3002 - 3012   2010.02( ISSN:0270-6474

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    DCXとLIS1は協調的に働き、神経細胞の遊走を制御していることを明らかにした。

    DOI: 10.1523/JNEUROSCI.4851-09.2010

    PubMed

  • mNUDC is required for plus-end-directed transport of cytoplasmic dynein and dynactins by kinesin-1 Reviewed

    Yamada Masami, Toba Shiori, Takitoh Takako, Yoshida Yuko, Mori Daisuke, Nakamura Takeshi, Iwane Atsuko H., Yanagida Toshio, Imai Hiroshi, Yu-Lee Li-yuan, Schroer Trina, Wynshaw-Boris Anthony, Hirotsune Shinji

    EMBO JOURNAL   29 ( 3 )   517 - 531   2010.02( ISSN:0261-4189

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    LIS1、Ndel,NudCは細胞質ダイニン、キネシン、微小管ネットワークの制御を通して神経細胞の分化、遊走に重要な役割を果たしていることを明らかにした。

    DOI: 10.1038/emboj.2009.378

    PubMed

  • The essential role of LIS1, NDEL1 and Aurora-A in polarity formation and microtubule organization during neurogensis Reviewed

    Yamada Masami, Hirotsune Shinji, Wynshaw-Boris Anthony

    CELL ADHESION & MIGRATION   4 ( 2 )   180 - 184   2010( ISSN:1933-6918

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    LIS1、Ndel,NudCは細胞質ダイニン、キネシン、微小管ネットワークの制御を通して神経細胞の分化、遊走に重要な役割を果たしていることを明らかにした。

    DOI: 10.4161/cam.4.2.10715

    PubMed

  • Distinct Dose-Dependent Cortical Neuronal Migration and Neurite Extension Defects in Lis1 and Ndel1 Mutant Mice Reviewed

    Youn Yong Ha, Pramparo Tiziano, Hirotsune Shinji, Wynshaw-Boris Anthony

    JOURNAL OF NEUROSCIENCE   29 ( 49 )   15520 - 15530   2009.12( ISSN:0270-6474

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    LIS1、Ndel,NudCは細胞質ダイニン、キネシン、微小管ネットワークの制御を通して神経細胞の分化、遊走に重要な役割を果たしていることを明らかにした。

    DOI: 10.1523/JNEUROSCI.4630-09.2009

    PubMed

  • CRMP-2 directly binds to cytoplasmic dynein and interferes with its activity Reviewed

    Arimura Nariko, Hattori Atsushi, Kimura Toshihide, Nakamuta Shinichi, Funahashi Yasuhiro, Hirotsune Shinji, Furuta Kenya, Urano Takashi, Toyoshima Yoko Y., Kaibuchi Kozo

    JOURNAL OF NEUROCHEMISTRY   111 ( 2 )   380 - 390   2009.10( ISSN:0022-3042

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    DOI: 10.1111/j.1471-4159.2009.06317.x

    PubMed

  • Inhibition of calpain increases LIS1 expression and partially rescues in vivo phenotypes in a mouse model of lissencephaly Reviewed

    Yamada Masami, Yoshida Yuko, Mori Daisuke, Takitoh Takako, Kengaku Mineko, Umeshima Hiroki, Takao Keizo, Miyakawa Tsuyoshi, Sato Makoto, Sorimachi Hiroyuki, Wynshaw-Boris Anthony, Hirotsune Shinji

    NATURE MEDICINE   15 ( 10 )   1202 - U132   2009.10( ISSN:1078-8956

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    LIS1はカルパインによって分解されることを明らかにし、カルパイン阻害剤によってLIS1の分解を抑制することが滑脳症の新たな治療戦略となることを証明した。

    DOI: 10.1038/nm.2023

    PubMed

  • An essential role of the aPKC-Aurora A-NDEL1 pathway in neurite elongation by modulation of microtubule dynamics.

    Nature Cell Biology   11   1057 - 1068   2009

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  • LIS1 and NDEL1 coordinate the plus-end-directed transport of cytoplasmic dynein Reviewed

    Yamada Masami, Toba Shiori, Yoshida Yuko, Haratani Koji, Mori Daisuke, Yano Yoshihisa, Mimori-Kiyosue Yuko, Nakamura Takeshi, Itoh Kyoko, Fushiki Shinji, Setou Mitsutoshi, Wynshaw-Boris Anthony, Torisawa Takayuki, Toyoshima Yoko Y., Hirotsune Shinji

    EMBO JOURNAL   27 ( 19 )   2471 - 2483   2008.10( ISSN:0261-4189

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    LIS1、Ndel,NudCは細胞質ダイニン、キネシン、微小管ネットワークの制御を通して神経細胞の分化、遊走に重要な役割を果たしていることを明らかにした。

    DOI: 10.1038/emboj.2008.182

    PubMed

  • [Molecular mechanism of lissencephaly: how LIS1 regulates cytoplasmic dynein]. Reviewed

    Hirotsune S

    No to hattatsu = Brain and development   40 ( 3 )   208 - 12   2008.05( ISSN:0029-0831

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    Publishing type:Research paper (scientific journal)   Kind of work:Single Work  

    LIS1、Ndel,NudCは細胞質ダイニン、キネシン、微小管ネットワークの制御を通して神経細胞の分化、遊走に重要な役割を果たしていることを明らかにした。

    PubMed

  • [Special issue for the 49th annual meeting of the Japanese Society of Child Neurology. July 5-7, 2007 Osaka. Symposium II. Molecular mechanism of brain formation. Introductory remarks]. Reviewed

    Hirotsune S, Kato M

    No to hattatsu = Brain and development   40 ( 3 )   202 - 3   2008.05( ISSN:0029-0831

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    LIS1、Ndel,NudCは細胞質ダイニン、キネシン、微小管ネットワークの制御を通して神経細胞の分化、遊走に重要な役割を果たしていることを明らかにした。

    PubMed

  • [Molecular mechanism of lissencephaly--how LIS1 and NDEL1 regulate cytoplasmic dynein?]. Reviewed

    Hirotsune S

    Brain and nerve = Shinkei kenkyu no shinpo   60 ( 4 )   375 - 81   2008.04( ISSN:1881-6096

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    LIS1、Ndel,NudCは細胞質ダイニン、キネシン、微小管ネットワークの制御を通して神経細胞の分化、遊走に重要な役割を果たしていることを明らかにした。

    PubMed

  • Protein phosphatase 4 catalytic subunit regulates Cdk1 activity and microtubule organization via NDEL1 dephosphorylation. Reviewed

    Toyo-oka K, Mori D, Yano Y, Shiota M, Iwao H, Goto H, Inagaki M, Hiraiwa N, Muramatsu M, Wynshaw-Boris A, Yoshiki A, Hirotsune S

    The Journal of cell biology   180 ( 6 )   1133 - 47   2008.03( ISSN:0021-9525

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    Publishing type:Research paper (scientific journal)  

    中心体特異的な脱リン酸化酵素・PP4は微小管ネットワークの制御を通して神経細胞の極性を制御していることを証明した。

    DOI: 10.1083/jcb.200705148

    PubMed

  • Neuroepithelial stem cell proliferation requires LIS1 for precise spindle orientation and symmetric division Reviewed

    Yingling Jessica, Youn Yong Ha, Darling Dawn, Toyo-Oka Kazuhito, Pramparo Tiziano, Hirotsune Shinji, Wynshaw-Boris Anthony

    CELL   132 ( 3 )   474 - 486   2008.02( ISSN:0092-8674

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    Publishing type:Research paper (scientific journal)  

    LIS1は細胞質ダイニンの移動に重要な役割を果たしており、神経細胞の非対称細胞分裂をコントロールしていることを明らかにした。

    DOI: 10.1016/j.cell.2008.01.026

    PubMed

  • LIS1 and NDEL1 coordinate the plus-end-directed transport of cytoplasmic dynein.

    The EMBO journal   27   2471 - 2483   2008

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    Publishing type:Research paper (scientific journal)  

  • DISC1 regulates the transport of the NUDEL/LIS1/14-3-3 epsilon complex through Kinesin-1 Reviewed

    Taya Shinichiro, Shinoda Tomoyasu, Tsuboi Daisuke, Asaki Junko, Nagai Kumiko, Hikita Takao, Kuroda Setsuko, Kuroda Keisuke, Shimizu Mariko, Hirotsune Shinji, Iwamatsu Akihiro, Kaibuchi Kozo

    JOURNAL OF NEUROSCIENCE   27 ( 1 )   15 - 26   2007.01( ISSN:0270-6474

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    Publishing type:Research paper (scientific journal)  

    NUDEL/LIS1/14-3-3 epsilon複合体はDISCと協調してキネシンの活性をコントロールしていることを明らかにした。

    DOI: 10.1523/JNEUROSCI.3826-06.2006

    PubMed

  • NDEL1 phosphorylation by aurora-A kinase is essential for centrosomal maturation, separation, and TACC3 recruitment Reviewed

    Mori Daisuke, Yano Yoshihisa, Toyo-Oka Kazuhito, Yoshida Noriyuki, Yamada Masami, Muramatsu Masami, Zhang Dongwei, Saya Hideyuki, Toyoshima Yoko Y., Kinoshita Kazuhisa, Wynshaw-Boris Anthony, Hirotsune Shinji

    MOLECULAR AND CELLULAR BIOLOGY   27 ( 1 )   352 - 367   2007.01( ISSN:0270-7306

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    Publishing type:Research paper (scientific journal)  

    NDEL1とAurora-Aは協調して中心体の分裂と微小管ネットワークをコントロールしていることを明らかにした。

    DOI: 10.1128/MCB.00878-06

    PubMed

  • LIS 1 heterozygous mutant mice show epileptic EEG pattern and lethal seizure induced by increasing-current electroshock test Reviewed

    Yamashita H., Yoda H., Okajima H., Kitana Y., Takazawa A., Toyo-oka K., Hirotsune S., Maruki T., Toyoshima R., Yamauchi T.

    EPILEPSIA   48   90 - 90   2007( ISSN:0013-9580

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    Publishing type:Research paper (scientific journal)  

    LIS1ノックアウトマウスは滑脳症モデルとして有用であり、てんかん発作の解析に用いることができることを明らかにした。

  • Paradigm of dynein regulation by Lis1 towards elucidation of neuronal migration Reviewed

    Hirotsune S.

    JOURNAL OF NEUROCHEMISTRY   98   38 - 38   2006.07( ISSN:0022-3042

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    Publishing type:Research paper (scientific journal)   Kind of work:Single Work  

    LIS1、Ndel,NudCは細胞質ダイニン、キネシン、微小管ネットワークの制御を通して神経細胞の分化、遊走に重要な役割を果たしていることを明らかにした。

  • Mnt-deficient mammary glands exhibit impaired involution and tumors with characteristics of Myc overexpression Reviewed

    Toyo-oka Kazuhito, Bowen Timothy J., Hirotsune Shinji, Li Zirong, Jain Sonia, Ota Sara, Escoubet-Lozach Laure, Garcia-Bassets Ivan, Lozach Jean, Rosenfeld Michael G., Glass Christopher K., Eisenman Robert, Ren Bing, Hurlin Peter, Wynshaw-Boris Anthony

    CANCER RESEARCH   66 ( 11 )   5565 - 5573   2006.06( ISSN:0008-5472

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    Publishing type:Research paper (scientific journal)  

    DOI: 10.1158/0008-5472.CAN-05-2683

    PubMed

  • [Unique role of LIS1 and NDEL1 as a regulator of cytoplasmic dynein]. Reviewed

    Hirotsune S

    Tanpakushitsu kakusan koso. Protein, nucleic acid, enzyme   51 ( 6 Suppl )   586 - 90   2006.05( ISSN:0039-9450

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    Publishing type:Research paper (scientific journal)   Kind of work:Single Work  

    LIS1、Ndel,NudCは細胞質ダイニン、キネシン、微小管ネットワークの制御を通して神経細胞の分化、遊走に重要な役割を果たしていることを明らかにした。

    PubMed

  • Recruitment of katanin p60 by phosphorylated NDEL1, an LIS1 interacting protein, is essential for mitotic cell division and neuronal migration Reviewed

    Toyo-Oka K, Sasaki S, Yano Y, Mori D, Kobayashi T, Toyoshima YY, Tokuoka SM, Ishii S, Shimizu T, Muramatsu M, Hiraiwa N, Yoshiki A, Wynshaw-Boris A, Hirotsune S

    HUMAN MOLECULAR GENETICS   14 ( 21 )   3113 - 3128   2005.11( ISSN:0964-6906

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    Publishing type:Research paper (scientific journal)  

    LIS1、Ndel,NudCはカタニンP80、60の制御を通して神経細胞の分化、遊走に重要な役割を果たしていることを明らかにした。

    DOI: 10.1093/hmg/ddi339

    PubMed

  • Complete loss of Ndel1 results in neuronal migration defects and early embryonic lethality Reviewed

    Sasaki S, Mori D, Toyo-oka K, Chen A, Garrett-Beal L, Muramatsu M, Miyagawa S, Hiraiwa N, Yoshiki A, Wynshaw-Boris A, Hirotsune S

    MOLECULAR AND CELLULAR BIOLOGY   25 ( 17 )   7812 - 7827   2005.09( ISSN:0270-7306

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    Publishing type:Research paper (scientific journal)  

    LIS1、Ndel,NudCは細胞質ダイニン、キネシン、微小管ネットワークの制御を通して神経細胞の分化、遊走に重要な役割を果たしていることを明らかにした。

    DOI: 10.1128/MCB.25.17.7812-7827.2005

    PubMed

  • LIS1 and NUDEL directly regulate the motility of cytoplasmic dynein in cooperative manner Reviewed

    Toba S, Toyo-oka K, Hirotsune S, Toyoshima YY

    BIOPHYSICAL JOURNAL   88 ( 1 )   652A - 652A   2005.01( ISSN:0006-3495

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    Publishing type:Research paper (scientific journal)  

    LIS1、Ndel,NudCは細胞質ダイニン、キネシン、微小管ネットワークの制御を通して神経細胞の分化、遊走に重要な役割を果たしていることを明らかにした。

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MISC

Presentations

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Grant-in-Aid for Scientific Research

  • 非定型微小管の構造と機能

    Grant-in-Aid for Scientific Research(B)  2017.04

  • 神経発生、ネットワーク形成に果たす中心体の役割の解明

    中心体・シリア  2013.04

  • 滑脳症治療への挑戦:カルパインによるリスワン分解機構の解明

    Grant-in-Aid for Scientific Research on Priority Areas  2010.04

  • 分化と増殖のスイッチング:分裂期キナーゼの神経細胞における役割。

    Grant-in-Aid for Scientific Research on Priority Areas  2009.04

  • 中枢神経系の形態形成と機能における細胞内物質輸送機構の解明。

    Grant-in-Aid for Scientific Research(B)  2009.04

Contract research

  • アルファシヌクレインの変異によるパーキンソン病発症メカニズムの解明。

    AMED  2018.04

  • カルパイン阻害剤を用いた滑脳症治療への新戦略。

    文部科学省・経済産業省  2010.04

Outline of education staff

  • 生化学、細胞生物学

Charge of on-campus class subject

  • Practice of biochemistry

    2019     Graduate school

  • Medical Research

    2019     Graduate school

  • Advanced Course of Medical Research

    2019     Graduate school

  • Exercise in Presentation

    2019     Graduate school

  • Biochemistry 4

    2019     Graduate school

  • Biochemistry 3

    2019     Graduate school

  • Biochemistry 2

    2019     Graduate school

  • Biochemistry 1

    2019     Graduate school

  • Molecular Medicine

    2019     Graduate school

  • Basic Course of Molecular Medicine

    2019     Graduate school

  • 生化学実習

    2019     Undergraduate

  • Cell Biology

    2019     Undergraduate

  • Biochemistry

    2019     Undergraduate

  • Practice of biochemistry

    2018     Graduate school

  • Medical Research

    2018     Graduate school

  • Advanced Course of Medical Research

    2018     Graduate school

  • Exercise in Presentation

    2018     Graduate school

  • Biochemistry 4

    2018     Graduate school

  • Biochemistry 3

    2018     Graduate school

  • Biochemistry 2

    2018     Graduate school

  • Biochemistry 1

    2018     Graduate school

  • Molecular Medicine

    2018     Graduate school

  • Basic Course of Molecular Medicine

    2018     Graduate school

  • 生化学実習

    2018     Undergraduate

  • Cell Biology

    2018     Undergraduate

  • Biochemistry

    2018     Undergraduate

  • Practice of biochemistry

    2017     Graduate school

  • Medical Research

    2017     Graduate school

  • Advanced Course of Medical Research

    2017     Graduate school

  • Exercise in Presentation

    2017     Graduate school

  • Biochemistry 4

    2017     Graduate school

  • Biochemistry 3

    2017     Graduate school

  • Biochemistry 2

    2017     Graduate school

  • Biochemistry 1

    2017     Graduate school

  • Molecular Medicine

    2017     Graduate school

  • Basic Course of Molecular Medicine

    2017     Graduate school

  • 生化学実習

    2017     Undergraduate

  • Cell Biology

    2017     Undergraduate

  • Biochemistry

    2017     Undergraduate

  • Practice of biochemistry

    2016     Graduate school

  • Medical Research

    2016     Graduate school

  • Advanced Course of Medical Research

    2016     Graduate school

  • Exercise in Presentation

    2016     Graduate school

  • Biochemistry 4

    2016     Graduate school

  • Biochemistry 3

    2016     Graduate school

  • Biochemistry 2

    2016     Graduate school

  • Biochemistry 1

    2016     Graduate school

  • Molecular Medicine

    2016     Graduate school

  • Basic Course of Molecular Medicine

    2016     Graduate school

  • 生化学実習

    2016     Undergraduate

  • Cell Biology

    2016     Undergraduate

  • Biochemistry

    2016     Undergraduate

  • Practice of biochemistry

    2015     Graduate school

  • Medical Research

    2015     Graduate school

  • Advanced Course of Medical Research

    2015     Graduate school

  • Exercise in Presentation

    2015     Graduate school

  • Biochemistry 4

    2015     Graduate school

  • Biochemistry 3

    2015     Graduate school

  • Biochemistry 2

    2015     Graduate school

  • Biochemistry 1

    2015     Graduate school

  • Molecular Medicine

    2015     Graduate school

  • Basic Course of Molecular Medicine

    2015     Graduate school

  • 生化学実習

    2015     Undergraduate

  • Cell Biology

    2015     Undergraduate

  • Biochemistry

    2015     Undergraduate

  • Practice of biochemistry

    2014     Graduate school

  • Medical Research

    2014     Graduate school

  • Advanced Course of Medical Research

    2014     Graduate school

  • Exercise in Presentation

    2014     Graduate school

  • Biochemistry 4

    2014     Graduate school

  • Biochemistry 3

    2014     Graduate school

  • Biochemistry 2

    2014     Graduate school

  • Biochemistry 1

    2014     Graduate school

  • Molecular Medicine

    2014     Graduate school

  • Basic Course of Molecular Medicine

    2014     Graduate school

  • 生化学実習

    2014     Undergraduate

  • Cell Biology

    2014     Undergraduate

  • Biochemistry

    2014     Undergraduate

  • Practice of biochemistry

    2013     Graduate school

  • Medical Research

    2013     Graduate school

  • Advanced Course of Medical Research

    2013     Graduate school

  • Exercise in Presentation

    2013     Graduate school

  • Biochemistry 4

    2013     Graduate school

  • Biochemistry 3

    2013     Graduate school

  • Biochemistry 2

    2013     Graduate school

  • Biochemistry 1

    2013     Graduate school

  • Molecular Medicine

    2013     Graduate school

  • Basic Course of Molecular Medicine

    2013     Graduate school

  • 生化学実習

    2013     Undergraduate

  • Cell Biology

    2013     Undergraduate

  • Biochemistry

    2013     Undergraduate

  • Biochemistry

    2012     Undergraduate

  • Practice of biochemistry

    2012     Graduate school

  • Medical Research

    2012     Graduate school

  • Advanced Course of Medical Research

    2012     Graduate school

  • Exercise in Presentation

    2012     Graduate school

  • Biochemistry 4

    2012     Graduate school

  • Biochemistry 3

    2012     Graduate school

  • Biochemistry 2

    2012     Graduate school

  • Biochemistry 1

    2012     Graduate school

  • Molecular Medicine

    2012     Graduate school

  • Basic Course of Molecular Medicine

    2012     Graduate school

  • 生化学実習

    2012     Undergraduate

  • Cell Biology

    2012     Undergraduate

  • Biochemistry

    2011     Undergraduate

  • Practice of biochemistry

    2011     Graduate school

  • Medical Research

    2011     Graduate school

  • Advanced Course of Medical Research

    2011     Graduate school

  • Exercise in Presentation

    2011     Graduate school

  • Biochemistry 4

    2011     Graduate school

  • Biochemistry 3

    2011     Graduate school

  • Biochemistry 2

    2011     Graduate school

  • Biochemistry 1

    2011     Graduate school

  • Molecular Medicine

    2011     Graduate school

  • Basic Course of Molecular Medicine

    2011     Graduate school

  • 生化学実習

    2011     Undergraduate

  • Cell Biology

    2011     Undergraduate

  • Biochemistry

    2010     Undergraduate

  • Practice of biochemistry

    2010     Graduate school

  • Medical Research

    2010     Graduate school

  • Advanced Course of Medical Research

    2010     Graduate school

  • Exercise in Presentation

    2010     Graduate school

  • Biochemistry 4

    2010     Graduate school

  • Biochemistry 3

    2010     Graduate school

  • Biochemistry 1

    2010     Graduate school

  • Biochemistry 1

    2010     Graduate school

  • Molecular Medicine

    2010     Graduate school

  • Basic Course of Molecular Medicine

    2010     Graduate school

  • 生化学実習

    2010     Undergraduate

  • Cell Biology

    2010     Undergraduate

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Charge of off-campus class subject

  • 生理学

Faculty development activities

  • FD活動への貢献  2010

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    大学教育センターでのFD活動についてパネルディスカッションに参加した。

Social Activities

  • 電子顕微鏡を用いた神経細胞の観察

    Role(s): Planner, Logistic support

    大阪市立大学  大阪市立大学・大学院医学研究科  2018.08

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    Audience: Junior high school students

    Type:Seminar, workshop

    Number of participants:5(人)

    電子顕微鏡のしくみの解説と実際の神経細胞の観察。

  • 電子顕微鏡を用いた神経細胞の観察

    Role(s): Planner, Logistic support, Performer

    大阪市立大学  大阪市立大学・大学院医学研究科  2018.08

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    Audience: Junior high school students

    Type:Seminar, workshop

    電子顕微鏡のしくみの解説と電子顕微鏡を用いた神経細胞の観察。

  • 脳のしくみ

    Role(s): Lecturer

    大阪市立大学・大学院医学研究科  2018.07

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    Audience: General public

    Type:Seminar, workshop

  • 第173回市民医学講座

    Role(s): Lecturer

    阿倍野メディックス  2013.06

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    Audience: General public

    Type:Lecture

    Number of participants:200(人)

  • 市民医学講座「ゲノム研究の最先端:病気の原因探索と治療への応用」

    Role(s): Lecturer

    医学部附属病院  2013.06

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    Audience: General public

    Type:Lecture

    Number of participants:103(人)

Visiting Lectures ⇒ Link to the list of Visiting Lectures

  • 脳の発生と疾患

    Category:Modern system science (knowledge information system, environmental system, educational welfare, psychology), Commerce (management, public management), Economics, Law (law, politics, administration), Literature (literature, philosophy, history, art, human behavior, language, culture, society / gender), Science (mathematics, physics, chemistry, biology, geology, biochemistry), Engineering (machinery, electronics / physics, electrical / electronics, electrical information, chemical biotechnology, architecture, cities (civil engineering / environment), material chemistry, aerospace, marine systems, applied chemistry, chemistry, materials), Life sciences (food, nutrition science, living environment, human welfare), Agricultural science (applied biology, biofunctional chemistry, green space environmental science), Medicine (medical care, rehabilitation, health exercise science, physical fitness / training, sports practice science), Nursing (nursing, sex education), Veterinary

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    Audience:General

    モータータンパク質制御因子の変異と神経疾患の関連
    モータータンパク質の異常と疾患の関連

Other

  • Job Career

    1987.04 - 1989.03