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本文引用的文献

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Microtubules regulate focal adhesion dynamics through MAP4K4.微管通过 MAP4K4 调节粘着斑动力学。
Dev Cell. 2014 Dec 8;31(5):572-85. doi: 10.1016/j.devcel.2014.10.025.
2
Hax1 regulates neutrophil adhesion and motility through RhoA.Hax1 通过 RhoA 调节中性粒细胞的黏附和迁移。
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Analysis of the myosin-II-responsive focal adhesion proteome reveals a role for β-Pix in negative regulation of focal adhesion maturation.肌球蛋白-II 反应性焦点黏附蛋白质组分析揭示 β-Pix 在焦点黏附成熟的负调控中的作用。
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Skin stem cells orchestrate directional migration by regulating microtubule-ACF7 connections through GSK3β.皮肤干细胞通过调控 GSK3β 介导的微管-ACF7 连接来调控定向迁移。
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Studying plus-end tracking at single molecule resolution using TIRF microscopy.使用全内反射荧光显微镜在单分子分辨率下研究正端追踪。
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Mammalian end binding proteins control persistent microtubule growth.哺乳动物末端结合蛋白控制微管的持续生长。
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ACF7 regulates cytoskeletal-focal adhesion dynamics and migration and has ATPase activity.ACF7调节细胞骨架-粘着斑动力学和迁移,并具有ATP酶活性。
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Loss of TGFbeta signaling destabilizes homeostasis and promotes squamous cell carcinomas in stratified epithelia.转化生长因子β信号通路的缺失会破坏内环境稳态,并促进复层上皮中的鳞状细胞癌。
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EB2与Hax1蛋白复合物对粘着斑动力学和细胞运动的调控

Regulation of Focal Adhesion Dynamics and Cell Motility by the EB2 and Hax1 Protein Complex.

作者信息

Liu Han, Yue Jiping, Huang He, Gou Xuewen, Chen Shao-Yu, Zhao Yingming, Wu Xiaoyang

机构信息

From the Ben May Department for Cancer Research, University of Chicago, Chicago, Illinois 60637 and.

the Department of Pharmacology and Toxicology, University of Louisville Health Science Center, Louisville, Kentucky, 40292.

出版信息

J Biol Chem. 2015 Dec 25;290(52):30771-82. doi: 10.1074/jbc.M115.671743. Epub 2015 Nov 2.

DOI:10.1074/jbc.M115.671743
PMID:26527684
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4692207/
Abstract

Cell migration is a fundamental cellular process requiring integrated activities of the cytoskeleton, membrane, and cell/extracellular matrix adhesions. Many cytoskeletal activities rely on microtubule filaments. It has been speculated that microtubules can serve as tracks to deliver proteins essential for focal adhesion turnover. Three microtubule end-binding proteins (EB1, EB2, and EB3) in mammalian cells can track the plus ends of growing microtubules. EB1 and EB3 together can regulate microtubule dynamics by promoting microtubule growth and suppressing catastrophe, whereas, in contrast, EB2 does not play a direct role in microtubule dynamic instability, and little is known about the cellular function of EB2. By quantitative proteomics, we identified mammalian HCLS1-associated protein X-1 (HAX1) as an EB2-specific interacting protein. Knockdown of HAX1 and EB2 in skin epidermal cells stabilizes focal adhesions and impairs epidermal migration in vitro and in vivo. Our results further demonstrate that cell motility and focal adhesion turnover require interaction between Hax1 and EB2. Together, our findings provide new insights for this critical cellular process, suggesting that EB2 association with Hax1 plays a significant role in focal adhesion turnover and epidermal migration.

摘要

细胞迁移是一个基本的细胞过程,需要细胞骨架、细胞膜和细胞/细胞外基质黏附的协同活动。许多细胞骨架活动依赖于微管丝。据推测,微管可作为运输对粘着斑周转至关重要的蛋白质的轨道。哺乳动物细胞中的三种微管末端结合蛋白(EB1、EB2和EB3)可追踪生长中微管的正端。EB1和EB3共同作用可通过促进微管生长和抑制微管灾变来调节微管动力学,而与之相反,EB2在微管动态不稳定性中不发挥直接作用,且对EB2的细胞功能知之甚少。通过定量蛋白质组学,我们鉴定出哺乳动物的造血细胞特异性蛋白1相关蛋白X-1(HAX1)是一种EB2特异性相互作用蛋白。在皮肤表皮细胞中敲低HAX1和EB2可使粘着斑稳定,并在体外和体内损害表皮迁移。我们的结果进一步证明,细胞运动性和粘着斑周转需要Hax1和EB2之间的相互作用。总之,我们的发现为这一关键的细胞过程提供了新见解,表明EB2与Hax1的结合在粘着斑周转和表皮迁移中起重要作用。