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踝蛋白2介导的牵引力驱动基质降解和细胞侵袭。

Talin2-mediated traction force drives matrix degradation and cell invasion.

作者信息

Qi Lei, Jafari Naser, Li Xiang, Chen Zaozao, Li Liqing, Hytönen Vesa P, Goult Benjamin T, Zhan Chang-Guo, Huang Cai

机构信息

Markey Cancer Center, University of Kentucky, Lexington, KY 40506, USA Veterans Affairs Medical Center, Lexington, KY 40502, USA.

Markey Cancer Center, University of Kentucky, Lexington, KY 40506, USA.

出版信息

J Cell Sci. 2016 Oct 1;129(19):3661-3674. doi: 10.1242/jcs.185959.

DOI:10.1242/jcs.185959
PMID:27694340
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6518309/
Abstract

Talin binds to β-integrin tails to activate integrins, regulating cell migration, invasion and metastasis. There are two talin genes, TLN1 and TLN2, encoding talin1 and talin2, respectively. Talin1 regulates focal adhesion dynamics, cell migration and invasion, whereas the biological function of talin2 is not clear and, indeed, talin2 has been presumed to function redundantly with talin1. Here, we show that talin2 has a much stronger binding to β-integrin tails than talin1. Replacement of talin2 Ser339 with Cys significantly decreased its binding to β1-integrin tails to a level comparable to that of talin1. Talin2 localizes at invadopodia and is indispensable for the generation of traction force and invadopodium-mediated matrix degradation. Ablation of talin2 suppressed traction force generation and invadopodia formation, which were restored by re-expressing talin2 but not talin1. Furthermore, re-expression of wild-type talin2 (but not talin2) in talin2-depleted cells rescued development of traction force and invadopodia. These results suggest that a strong interaction of talin2 with integrins is required to generate traction, which in turn drives invadopodium-mediated matrix degradation, which is key to cancer cell invasion.

摘要

踝蛋白与β整合素尾部结合以激活整合素,从而调节细胞迁移、侵袭和转移。有两个踝蛋白基因,TLN1和TLN2,分别编码踝蛋白1和踝蛋白2。踝蛋白1调节粘着斑动力学、细胞迁移和侵袭,而踝蛋白2的生物学功能尚不清楚,实际上,踝蛋白2被认为与踝蛋白1具有冗余功能。在此,我们表明踝蛋白2与β整合素尾部的结合比踝蛋白1更强。将踝蛋白2的Ser339替换为Cys可显著降低其与β1整合素尾部的结合,使其水平与踝蛋白1相当。踝蛋白2定位于侵袭伪足,对于产生牵引力和侵袭伪足介导的基质降解不可或缺。敲除踝蛋白2可抑制牵引力的产生和侵袭伪足的形成,通过重新表达踝蛋白2而非踝蛋白1可恢复这些现象。此外,在踝蛋白2缺失的细胞中重新表达野生型踝蛋白2(而非踝蛋白2)可挽救牵引力和侵袭伪足的发育。这些结果表明,踝蛋白2与整合素的强相互作用是产生牵引力所必需的,而牵引力反过来驱动侵袭伪足介导的基质降解,这是癌细胞侵袭的关键。

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