Fidgetin通过在前缘切断酪氨酸化微管来调节培养的星形胶质细胞迁移。

Fidgetin regulates cultured astrocyte migration by severing tyrosinated microtubules at the leading edge.

作者信息

Hu Zunlu, Feng Jie, Bo Weijuan, Wu Ronghua, Dong Zhangji, Liu Yan, Qiang Liang, Liu Mei

机构信息

Key Laboratory of Neuroregeneration, Jiangsu, and Ministry of Education, Co-innovation Center of Neuroregeneration, Nantong University, Nantong, Jiangsu 226001, China.

Key Laboratory of Neuroregeneration, Jiangsu, and Ministry of Education, Co-innovation Center of Neuroregeneration, Nantong University, Nantong, Jiangsu 226001, China

出版信息

Mol Biol Cell. 2017 Feb 15;28(4):545-553. doi: 10.1091/mbc.E16-09-0628. Epub 2016 Dec 14.

DOI:10.1091/mbc.E16-09-0628

PMID:27974640

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5305261/

Abstract

Microtubule (MT) organization is essential for many cellular events, including mitosis, migration, and cell polarity. Fidgetin (Fign), an ATP-dependent, MT-severing protein, contributes to the regulation of MT configuration by cutting and trimming MT polymers. Functions of Fign have been indicated in neurite outgrowth, mitosis, meiosis, and cellular migration. Here we focus on migration of astrocytes. We find that Fign plays an essential role in cultured astrocyte migration by preferentially targeting MTs (or regions of MTs) that are rich in tyrosinated tubulin, a marker for especially dynamic MTs or especially dynamic regions of MTs. Inhibition of cellular migration induced by Fign knockdown can be rescued with concomitant knockdown of kinesin-12, a motor protein best known for its role in mitosis. We propose a novel working model for MT reconfiguration underlying cellular migration elicited by the functional cooperation of two distinct MT-related proteins.

摘要

微管（MT）的组织对于许多细胞活动至关重要，包括有丝分裂、迁移和细胞极性。Fidgetin（Fign）是一种依赖ATP的微管切断蛋白，通过切割和修剪微管聚合物来调节微管构型。Fign的功能已在神经突生长、有丝分裂、减数分裂和细胞迁移中得到体现。在此我们聚焦于星形胶质细胞的迁移。我们发现，Fign通过优先靶向富含酪氨酸化微管蛋白的微管（或微管区域），在培养的星形胶质细胞迁移中发挥重要作用，酪氨酸化微管蛋白是特别动态的微管或微管特别动态区域的标志物。由Fign基因敲低诱导的细胞迁移抑制可通过同时敲低驱动蛋白-12来挽救，驱动蛋白-12是一种以在有丝分裂中的作用而闻名的运动蛋白。我们提出了一个新的工作模型，用于解释由两种不同的微管相关蛋白的功能协作引发的细胞迁移背后的微管重构。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aec2/5305261/ab928d78ba42/545fig1.jpg

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Fidgetin通过在前缘切断酪氨酸化微管来调节培养的星形胶质细胞迁移。

Fidgetin regulates cultured astrocyte migration by severing tyrosinated microtubules at the leading edge.

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