Significance of birth in the maintenance of quiescent neural stem cells.

Koya Kawase,Yasuhisa Nakamura,Laura Wolbeck,Shoko Takemura,Kei Zaitsu,Takehiro Ando,Hideo Jinnou,Masato Sawada,Chikako Nakajima,Rasmus Rydbirk,Sakura Gokenya,Akira Ito,Hitomi Fujiyama,Akari Saito,Akira Iguchi,Panagiotis Kratimenos,Nobuyuki Ishibashi,Vittorio Gallo,Osuke Iwata,Shinji Saitoh,Konstantin Khodosevich,Kazunobu Sawamoto

doi:10.1126/sciadv.adn6377

Significance of birth in the maintenance of quiescent neural stem cells.

Koya Kawase, Yasuhisa Nakamura + Show 20 more

https://doi.org/10.1126/sciadv.adn6377

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Journal: Science advances

Publication Date: Jan 24, 2025

#Maintenance Of Neural Stem Cells #Neural Stem Cells #Neural Stem Cells Pool #Embryonic Neural Stem Cells #Radial Glia #Quiescent Neural Stem Cells #Postnatal Brain #Preterm Birth #Maintenance Of Stem Cells #Quiescent Stem Cells

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Birth is one of the most important life events for animals. However, its significance in the developmental process is not fully understood. Here, we found that birth-induced alteration of glutamine metabolism in radial glia (RG), the embryonic neural stem cells (NSCs), is required for the acquisition of quiescence and long-term maintenance of postnatal NSCs. Preterm birth impairs this cellular process, leading to transient hyperactivation of RG. Consequently, in the postnatal brain, the NSC pool is depleted and neurogenesis is decreased. We also found that the maintenance of quiescent RG after preterm birth improves postnatal neurogenesis. This study demonstrates the significance of birth in the maintenance of quiescent NSCs.

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Significance of birth in the maintenance of quiescent neural stem cells.