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骨骼肌中缺乏踝蛋白1的小鼠出现进行性肌病和肌腱连接维持缺陷。

Progressive myopathy and defects in the maintenance of myotendinous junctions in mice that lack talin 1 in skeletal muscle.

作者信息

Conti Francesco J, Felder Amanda, Monkley Sue, Schwander Martin, Wood Malcolm R, Lieber Richard, Critchley David, Müller Ulrich

机构信息

The Scripps Research Institute, Department of Cell Biology and Institute of Childhood and Neglected Disease, La Jolla, CA 92037, USA.

出版信息

Development. 2008 Jun;135(11):2043-53. doi: 10.1242/dev.015818. Epub 2008 Apr 23.

DOI:10.1242/dev.015818
PMID:18434420
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2562324/
Abstract

The development and function of skeletal muscle depend on molecules that connect the muscle fiber cytoskeleton to the extracellular matrix (ECM). beta1 integrins are ECM receptors in skeletal muscle, and mutations that affect the alpha7beta1 integrin cause myopathy in humans. In mice, beta1 integrins control myoblast fusion, the assembly of the muscle fiber cytoskeleton, and the maintenance of myotendinous junctions (MTJs). The effector molecules that mediate beta1 integrin functions in muscle are not known. Previous studies have shown that talin 1 controls the force-dependent assembly of integrin adhesion complexes and regulates the affinity of integrins for ligands. Here we show that talin 1 is essential in skeletal muscle for the maintenance of integrin attachment sites at MTJs. Mice with a skeletal muscle-specific ablation of the talin 1 gene suffer from a progressive myopathy. Surprisingly, myoblast fusion and the assembly of integrin-containing adhesion complexes at costameres and MTJs advance normally in the mutants. However, with progressive ageing, the muscle fiber cytoskeleton detaches from MTJs. Mechanical measurements on isolated muscles show defects in the ability of talin 1-deficient muscle to generate force. Collectively, our findings show that talin 1 is essential for providing mechanical stability to integrin-dependent adhesion complexes at MTJs, which is crucial for optimal force generation by skeletal muscle.

摘要

骨骼肌的发育和功能依赖于将肌纤维细胞骨架与细胞外基质(ECM)连接起来的分子。β1整合素是骨骼肌中的ECM受体,影响α7β1整合素的突变会导致人类患肌病。在小鼠中,β1整合素控制成肌细胞融合、肌纤维细胞骨架的组装以及肌腱连接点(MTJ)的维持。介导β1整合素在肌肉中功能的效应分子尚不清楚。先前的研究表明,踝蛋白1控制整合素黏附复合物的力依赖性组装,并调节整合素对配体的亲和力。在此我们表明,踝蛋白1在骨骼肌中对于维持MTJ处的整合素附着位点至关重要。骨骼肌特异性敲除踝蛋白1基因的小鼠患有进行性肌病。令人惊讶的是,成肌细胞融合以及在肌小节和MTJ处含整合素的黏附复合物的组装在突变体中正常进行。然而,随着年龄的逐渐增长,肌纤维细胞骨架与MTJ分离。对分离肌肉的力学测量显示,缺乏踝蛋白1的肌肉产生力的能力存在缺陷。总的来说,我们的研究结果表明,踝蛋白1对于为MTJ处依赖整合素的黏附复合物提供机械稳定性至关重要,这对于骨骼肌最佳地产生力至关重要。

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