Kif3a 缺失可阻止少突胶质前体细胞形成初级纤毛，减少少突胶质细胞生成并损害精细运动功能。

Kif3a deletion prevents primary cilia assembly on oligodendrocyte progenitor cells, reduces oligodendrogenesis and impairs fine motor function.

机构信息

Menzies Institute for Medical Research, University of Tasmania, Hobart, Australia.

School of Medicine, University of Tasmania, Hobart, Australia.

出版信息

Glia. 2021 May;69(5):1184-1203. doi: 10.1002/glia.23957. Epub 2020 Dec 24.

DOI:10.1002/glia.23957

PMID:33368703

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7986221/

Abstract

Primary cilia are small microtubule-based organelles capable of transducing signals from growth factor receptors embedded in the cilia membrane. Developmentally, oligodendrocyte progenitor cells (OPCs) express genes associated with primary cilia assembly, disassembly, and signaling, however, the importance of primary cilia for adult myelination has not been explored. We show that OPCs are ciliated in vitro and in vivo, and that they disassemble their primary cilia as they progress through the cell cycle. OPC primary cilia are also disassembled as OPCs differentiate into oligodendrocytes. When kinesin family member 3a (Kif3a), a gene critical for primary cilium assembly, was conditionally deleted from adult OPCs in vivo (Pdgfrα-CreER™:: Kif3a transgenic mice), OPCs failed to assemble primary cilia. Kif3a-deletion was also associated with reduced OPC proliferation and oligodendrogenesis in the corpus callosum and motor cortex and a progressive impairment of fine motor coordination.

摘要

初级纤毛是一种小型的微管基细胞器，能够将嵌入纤毛膜中的生长因子受体的信号转导。在发育过程中，少突胶质前体细胞 (OPC) 表达与初级纤毛组装、解体和信号转导相关的基因，然而，初级纤毛对成年髓鞘形成的重要性尚未得到探索。我们表明，OPC 在体外和体内都有纤毛，并且它们在细胞周期中进行时会解体其初级纤毛。当少突胶质前体细胞分化为少突胶质细胞时，OPC 的初级纤毛也会解体。当驱动蛋白家族成员 3a（Kif3a），一种对于初级纤毛组装至关重要的基因，在体内条件性地从成年 OPC 中缺失时（Pdgfrα-CreER™:: Kif3a 转基因小鼠），OPC 无法组装初级纤毛。Kif3a 缺失也与胼胝体和运动皮层中 OPC 增殖和少突胶质发生减少以及精细运动协调能力逐渐受损有关。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9418/7986221/bf6e1251ba5a/GLIA-69-1184-g007.jpg

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Kif3a 缺失可阻止少突胶质前体细胞形成初级纤毛，减少少突胶质细胞生成并损害精细运动功能。

Kif3a deletion prevents primary cilia assembly on oligodendrocyte progenitor cells, reduces oligodendrogenesis and impairs fine motor function.

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