肌联蛋白调节细胞黏附位点的力转导。

Metavinculin modulates force transduction in cell adhesion sites.

机构信息

Department of Quantitative Cell Biology, Institute of Molecular Cell Biology, University of Münster, 48149, Münster, Germany.

Max Planck Institute of Biochemistry, Group of Molecular Mechanotransduction, 82152, Martinsried, Germany.

出版信息

Nat Commun. 2020 Dec 17;11(1):6403. doi: 10.1038/s41467-020-20125-z.

DOI:10.1038/s41467-020-20125-z

PMID:33335089

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7747745/

Abstract

Vinculin is a ubiquitously expressed protein, crucial for the regulation of force transduction in cells. Muscle cells express a vinculin splice-isoform called metavinculin, which has been associated with cardiomyopathies. However, the molecular function of metavinculin has remained unclear and its role for heart muscle disorders undefined. Here, we have employed a set of piconewton-sensitive tension sensors to probe metavinculin mechanics in cells. Our experiments reveal that metavinculin bears higher molecular forces but is less frequently engaged as compared to vinculin, leading to altered force propagation in cell adhesions. In addition, we have generated knockout mice to investigate the consequences of metavinculin loss in vivo. Unexpectedly, these animals display an unaltered tissue response in a cardiac hypertrophy model. Together, the data reveal that the transduction of cell adhesion forces is modulated by expression of metavinculin, yet its role for heart muscle function seems more subtle than previously thought.

摘要

vinculin 是一种广泛表达的蛋白质，对于细胞力转导的调节至关重要。肌肉细胞表达一种叫做变位 vinculin 的剪接异构体，它与心肌病有关。然而，变位 vinculin 的分子功能仍然不清楚，其在心肌疾病中的作用也尚未确定。在这里，我们使用了一组皮牛顿敏感张力传感器来探测细胞中的变位 vinculin 力学。我们的实验表明，变位 vinculin 承受更高的分子力，但与 vinculin 相比，其参与的频率较低，导致细胞黏附中的力传递发生改变。此外，我们还生成了 knockout 小鼠来研究体内变位 vinculin 缺失的后果。出乎意料的是，这些动物在心肌肥厚模型中表现出未改变的组织反应。总之，这些数据表明细胞黏附力的转导受变位 vinculin 的表达调节，但它在心肌功能中的作用似乎比之前认为的更为微妙。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3e0c/7747745/e5b8ba209f0d/41467_2020_20125_Fig1_HTML.jpg

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肌联蛋白调节细胞黏附位点的力转导。

Metavinculin modulates force transduction in cell adhesion sites.

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