Updated on 2024/04/11

写真a

 
OU SEIMEI
 
Organization
Graduate School of Medicine Department of Basic Medical Science Assistant Professor
School of Medicine Department of Medical Science
Title
Assistant Professor
Affiliation
Institute of Medicine

Position

  • Graduate School of Medicine Department of Basic Medical Science 

    Assistant Professor  2022.10 - Now

  • School of Medicine Department of Medical Science 

    Assistant Professor  2022.10 - Now

Degree

  • 医学博士 ( Osaka City University )

  • 医学学士 ( Others )

Papers

  • Pathological and physiological functional cross-talks of α-synuclein and tau in the central nervous system Invited Reviewed

    Mingyue Jin, Shengming Wang, Xiaodie Gao, Zhenyou Zou, Shinji Hirotsune, Liyuan Sun

    NEURAL REGENERATION RESEARCH   Vol 19 ( 4 )   855 - 862   2023.09

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    International / domestic magazine:International journal  

    DOI: https://doi.org/10.4103/1673-5374.382231

  • Functional Cooperation of α-Synuclein and Tau Is Essential for Proper Corticogenesis

    Shengming Wang, Yu Fu, Takaki Miyata, Sakiko Matsumoto, Tomoyasu Shinoda, Kyoko Itoh, Akihiro Harada, Shinji Hirotsune and Mingyue Jin

    Journal of Neuroscience   42 ( 37 )   7031 - 7046   2022.09

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    Authorship:Lead author   Publishing type:Research paper (scientific journal)   International / domestic magazine:International journal  

    Alpha-synuclein (αSyn) and tau are abundant multifunctional neuronal proteins, and their intracellular deposits have been linked to many neurodegenerative diseases, including Alzheimer's disease and Parkinson's disease. Despite the disease relevance, their physiological roles remain elusive, as mice with knock-out of either of these genes do not exhibit overt phenotypes. To reveal functional cooperation, we generated αSyn−/−tau−/− double-knock-out mice and characterized the functional cross talk between these proteins during brain development. Intriguingly, deletion of αSyn and tau reduced Notch signaling and accelerated interkinetic nuclear migration of G2 phase at early embryonic stage. This significantly altered the balance between the proliferative and neurogenic divisions of progenitor cells, resulting in an overproduction of early born neurons and enhanced neurogenesis, by which the brain size was enlarged during the embryonic stage in both sexes. On the other hand, a reduction in the number of neural progenitor cells in the middle stage of corticogenesis diminished subsequent gliogenesis in the αSyn−/−tau−/− cortex. Additionally, the expansion and maturation of macroglial cells (astrocytes and oligodendrocytes) were suppressed in the αSyn−/−tau−/− postnatal brain, which in turn reduced the male αSyn−/−tau−/− brain size and cortical thickness to less than the control values. Our study identifies important functional cooperation of αSyn and tau during corticogenesis.

    DOI: https://doi.org/10.1523/JNEUROSCI.0396-22.2022

    Repository URL: http://hdl.handle.net/10466/0002000802

  • Lis1 mutation prevents basal radial glia-like cell production in the mouse International coauthorship

    Maxime Penisson, Mingyue Jin, Shengming Wang, Shinji Hirotsune, Fiona Francis, Richard Belvindrah

    Human Molecular Genetics   35 ( 6 )   942 - 957   2022.03

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    Publishing type:Research paper (scientific journal)   Kind of work:Joint Work   International / domestic magazine:International journal  

    Human cerebral cortical malformations are associated with progenitor proliferation and neuronal migration abnormalities. Progenitor cells include apical radial glia, intermediate progenitors and basal (or outer) radial glia (bRGs or oRGs). bRGs are few in number in lissencephalic species (e.g. the mouse) but abundant in gyrencephalic brains. The LIS1 gene coding for a dynein regulator, is mutated in human lissencephaly, associated also in some cases with microcephaly. LIS1 was shown to be important during cell division and neuronal migration. Here, we generated bRG-like cells in the mouse embryonic brain, investigating the role of Lis1 in their formation. This was achieved by in utero electroporation of a hominoid-specific gene TBC1D3 (coding for a RAB-GAP protein) at mouse embryonic day (E) 14.5. We first confirmed that TBC1D3 expression in wild-type (WT) brain generates numerous Pax6+ bRG-like cells that are basally localized. Second, using the same approach, we assessed the formation of these cells in heterozygote Lis1 mutant brains. Our novel results show that Lis1 depletion in the forebrain from E9.5 prevented subsequent TBC1D3-induced bRG-like cell amplification. Indeed, we observe perturbation of the ventricular zone (VZ) in the mutant. Lis1 depletion altered adhesion proteins and mitotic spindle orientations at the ventricular surface and increased the proportion of abventricular mitoses. Progenitor outcome could not be further altered by TBC1D3. We conclude that disruption of Lis1/LIS1 dosage is likely to be detrimental for appropriate progenitor number and position, contributing to lissencephaly pathogenesis.

    DOI: https://doi.org/10.1093/hmg/ddab295

Presentations

  • Synergism deficiency of α-Synuclein and tau cause Neurotoxicity and influence the Hippocampus Neurogenesis Domestic conference

    Shengming Wang, Yu Fu, Shinji Hirotsune

    2023.12 

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    Presentation type:Poster presentation  

  • Functional cross-talk between α-Synuclein and tau in corticogenesis Domestic conference

    Shengming Wang, Yu Fu, Takaki Miyata, Sakiko Matsumoto, Tomoyasu Shinoda, Kyoko Itoh, Akihiro Harada, Mingyue Jin, Shinji Hirotsune

    MBSJ  2022.11 

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    Presentation type:Poster presentation  

Charge of on-campus class subject

  • 医学研究推進コース3

    2023   Practical Training  

  • 医学研究推進コース2

    2023   Practical Training  

  • Biochemistry

    2023