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踝蛋白与DLC1相互作用的机械敏感生化印记调节RhoA活性和心肌细胞重塑。

Mechanosensitive biochemical imprinting of the talin interaction with DLC1 regulates RhoA activity and cardiomyocyte remodeling.

作者信息

Marhuenda Emilie, Xanthis Ioannis, Smith Poppy O, Prakash Aishwarya, Kallem Till, Pandey Pragati, Wilson Darren Graham Samuel, Azad Amar, Richter Megan, Pavlovic Davor, Gehmlich Katja, Faggian Giuseppe, Swiatlowska Pamela, Ehler Elisabeth, Levitt James, Poland Simon P, Ameer-Beg Simon, Goult Benjamin T, Iskratsch Thomas

机构信息

School of Engineering and Materials Science, Queen Mary University of London, UK.

Université de Bordeaux, CNRS, Bordeaux INP, CBMN, UMR 5248, F-33600 Pessac, France.

出版信息

Sci Adv. 2025 Sep 5;11(36):eadt6083. doi: 10.1126/sciadv.adt6083.

DOI:10.1126/sciadv.adt6083
PMID:40911671
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12412656/
Abstract

During heart disease, the cardiac extracellular matrix (ECM) undergoes a structural and mechanical transformation. Cardiomyocytes sense the mechanical properties of their environment, leading to phenotypic remodeling. A critical component of the ECM mechanosensing machinery, including the protein talin, is organized at the cardiomyocyte costamere. Our previous work indicated a different talin tension, depending on the ECM stiffness, but the effects on downstream signaling remained elusive. Here, we identify that the talin interacting proteins DLC1 (deleted in liver cancer 1), RIAM (Rap1-interacting adaptor molecule), and paxillin each preferentially bind to talin at a specific ECM stiffness, this interaction is preserved in the absence of tension, and the interaction is regulated through focal adhesion kinase signaling. Moreover, DLC1 regulates cardiomyocyte RhoA activity in a stiffness-dependent way, whereby the loss of DLC1 results in myofibrillar disarray. Together, this study demonstrates a mechanism of imprinting mechanical information into the talin interactome to fine-tune RhoA activity, with impacts on cardiac health and disease.

摘要

在心脏病发生过程中,心脏细胞外基质(ECM)会经历结构和力学转变。心肌细胞感知其周围环境的力学特性,从而导致表型重塑。ECM机械传感机制的一个关键组成部分,包括蛋白踝蛋白,定位于心肌细胞的黏着斑。我们之前的研究表明,根据ECM的硬度不同,踝蛋白的张力也不同,但对下游信号传导的影响仍不明确。在这里,我们发现踝蛋白相互作用蛋白DLC1(肝癌缺失1)、RIAM(Rap1相互作用衔接分子)和桩蛋白各自在特定的ECM硬度下优先与踝蛋白结合,这种相互作用在没有张力的情况下得以保留,并且这种相互作用通过粘着斑激酶信号传导进行调节。此外,DLC1以硬度依赖的方式调节心肌细胞的RhoA活性,由此DLC1的缺失会导致肌原纤维紊乱。总之,这项研究揭示了一种将机械信息印记到踝蛋白相互作用组中以微调RhoA活性的机制,这对心脏健康和疾病具有影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e1d3/12412656/b7d8379508c2/sciadv.adt6083-f7.jpg
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