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Waking up quiescent neural stem cells: Molecular mechanisms and implications in neurodevelopmental disorders.

Wei Yung DingJiawen HuangHongyan Wang
Published in: PLoS genetics (2020)
Neural stem cells (NSCs) are crucial for development, regeneration, and repair of the nervous system. Most NSCs in mammalian adult brains are quiescent, but in response to extrinsic stimuli, they can exit from quiescence and become reactivated to give rise to new neurons. The delicate balance between NSC quiescence and activation is important for adult neurogenesis and NSC maintenance. However, how NSCs transit between quiescence and activation remains largely elusive. Here, we discuss our current understanding of the molecular mechanisms underlying the reactivation of quiescent NSCs. We review recent advances on signaling pathways originated from the NSC niche and their crosstalk in regulating NSC reactivation. We also highlight new intrinsic paradigms that control NSC reactivation in Drosophila and mammalian systems. We also discuss emerging evidence on modeling human neurodevelopmental disorders using NSCs.
Keyphrases
  • neural stem cells
  • endothelial cells
  • stem cells
  • signaling pathway
  • oxidative stress
  • epithelial mesenchymal transition
  • childhood cancer
  • cell proliferation
  • brain injury
  • pluripotent stem cells
  • blood brain barrier