非经典Wnt信号通路在稳态和脱髓鞘后调节神经干细胞的静止状态。

Non-canonical Wnt signaling regulates neural stem cell quiescence during homeostasis and after demyelination.

作者信息

Chavali Manideep, Klingener Michael, Kokkosis Alexandros G, Garkun Yury, Felong Sylwia, Maffei Arianna, Aguirre Adan

机构信息

Department of Pharmacological Sciences, Stony Brook University, Stony Brook, NY, 11794, USA.

Materials Science and Engineering, Stony Brook University, Stony Brook, NY, 11794, USA.

出版信息

Nat Commun. 2018 Jan 2;9(1):36. doi: 10.1038/s41467-017-02440-0.

DOI:10.1038/s41467-017-02440-0

PMID:29296000

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5750230/

Abstract

Adult neural stem cells (NSCs) reside in a specialized microenvironment, the subventricular zone (SVZ), which provides them with unique signaling cues to control their basic properties and prevent their exhaustion. While the signaling mechanisms that regulate NSC lineage progression are well characterized, the molecular mechanisms that trigger the activation of quiescent NSCs during homeostasis and tissue repair are still unclear. Here, we uncovered that the NSC quiescent state is maintained by Rho-GTPase Cdc42, a downstream target of non-canonical Wnt signaling. Mechanistically, activation of Cdc42 induces expression of molecules involved in stem cell identity and anchorage to the niche. Strikingly, during a demyelination injury, downregulation of non-canonical Wnt-dependent Cdc42 activity is necessary to promote activation and lineage progression of quiescent NSCs, thereby initiating the process of tissue repair.

摘要

成体神经干细胞（NSCs）存在于一个特殊的微环境——脑室下区（SVZ）中，该微环境为它们提供独特的信号线索，以控制其基本特性并防止其耗竭。虽然调节神经干细胞谱系进展的信号机制已得到充分表征，但在稳态和组织修复过程中触发静止神经干细胞激活的分子机制仍不清楚。在这里，我们发现神经干细胞的静止状态由Rho-GTPase Cdc42维持，Cdc42是非经典Wnt信号的下游靶点。从机制上讲，Cdc42的激活诱导参与干细胞特性和与生态位锚定的分子的表达。引人注目的是，在脱髓鞘损伤期间，非经典Wnt依赖的Cdc42活性的下调对于促进静止神经干细胞的激活和谱系进展是必要的，从而启动组织修复过程。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4db7/5750230/44fccc948d10/41467_2017_2440_Fig1_HTML.jpg

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非经典Wnt信号通路在稳态和脱髓鞘后调节神经干细胞的静止状态。

Non-canonical Wnt signaling regulates neural stem cell quiescence during homeostasis and after demyelination.

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