AOCCN2017

講演情報

Keynote Lecture

[KL2] Keynote Lecture 2

2017年5月13日(土) 13:40 〜 15:10 Room A (1F Argos A・B)

Chair: Pongsakdi Visudhiphan (Ramathibodi Hospital, Mahidol University), Shinichi Hirose (Fukuoka University)

[KL2-1] Neurobiology of Neural Stem/Progenitor Cells and Its Application to Child Neurology

Takao Takahashi (Department of Pediatrics, Keio University School of Medicne, Japan)

The total number of neurons to be produced during neocortical neuronogenesis will ultimately determine the size of the brain and layer architecture of the neocortex, and hence define the higher cortical function of human being. The process of neuron production through proliferation/differentiation of neural stem/progenitor cells (NSPCs) and its contribution to the laminar formation of the neocortex will be reviewed. Principal emphasis will be upon the decision-making characteristics of NSPCs (either to remain in the proliferative population or to exit the cell cycle) and regulatory mechanisms that govern those behaviors. The following points will be emphasized as take home messages: 1) Neocortical neuron number is precisely controlled by cell cycle exit probability (Q) of NSPCs. 2) A subtle change in Q leads to a significant modulation in the neuron number and the brain size. Further, as an example of application of stem cell biology to child neurology, a mouse model of “In utero exposure to valproic acid” will be presented. The model shows that the antiepileptic drug valproic acid, also known as a histone deacetylase inhibitor, induces neocortical dysgenesis by Q alteration due to a nonspecific increase of G1-phase regulatory proteins; this illustrates the mechanisms of higher cortical function deficits reported in children prenatally exposed to this drug.