Regulation of α-catenin conformation at cadherin adhesions

Q4 Engineering

Journal of Biomechanical Science and Engineering Pub Date : 2018-01-01 DOI:10.1299/JBSE.17-00699

K. Biswas

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引用次数: 6

Abstract

Cells in our body utilize a variety of adaptor proteins for transmitting context specific signals that arise from the cellular microenvironment. Adaptor proteins lack enzymatic activity and typically perform their function by acting as scaffolds that bind other signaling proteins. While most adaptor proteins are functionally modulated by biochemical alterations such as phosphorylation, a subset of adaptor proteins are functionally modulated by a mechanical alteration in their structure that makes cryptic sites available for binding to downstream signaling proteins. α-catenin is one such adaptor protein that localizes to cadherin-based cell adhesions by binding the membrane-localized cadherin-β-catenin complex at one side and the cytosolic F-actin on the other side. An increase in actomyosin tension is directly relayed to α-catenin resulting in a change in its conformation making cryptic binding sites accessible to its interacting partners. Here, I describe an updated view of the mechanical regulation of α-catenin in the context of cellular adhesion, including the role of cadherin clustering in its activation.

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钙粘蛋白粘附时α-连环蛋白构象的调节

我们体内的细胞利用各种适配器蛋白来传递来自细胞微环境的特定环境信号。接头蛋白缺乏酶活性，通常通过作为结合其他信号蛋白的支架来发挥其功能。虽然大多数接头蛋白是通过生化改变(如磷酸化)在功能上进行调节的，但有一部分接头蛋白是通过其结构的机械改变在功能上进行调节的，这种改变使得隐秘的位点可与下游信号蛋白结合。α-catenin就是这样一种适配蛋白，它通过结合膜定位的钙粘蛋白-β-catenin复合物和细胞质内的F-actin来定位钙粘蛋白为基础的细胞粘附。肌动球蛋白张力的增加直接传递给α-连环蛋白，导致其构象的改变，使其相互作用的伙伴可以接近隐藏的结合位点。在这里，我描述了在细胞粘附的背景下α-连环蛋白的机械调节的最新观点，包括钙粘蛋白聚集在其激活中的作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Biomechanical Science and Engineering Engineering-Biomedical Engineering

CiteScore

0.90

自引率

0.00%

发文量