Mechanical regulation of a molecular clutch defines force transmission and transduction in response to matrix rigidity

Alberto Elosegui-Artola; Roger Oria; Yunfeng Chen; Anita Joanna Kosmalska; Carlos Pérez-González; Natalia Castro; Cheng Zhu; Xavier Trepat; Pere Roca-Cusachs

doi:https://doi.org/10.1038/ncb3336

doi.org/10.1038/ncb3336

Mechanical regulation of a molecular clutch defines force transmission and transduction in response to matrix rigidity

Alberto Elosegui-Artola

18

,

Roger Oria

10

,

..., Pere Roca-Cusachs

38

Nature Cell Biology21.30

Volume: 18, Issue: 5, Pages: 540 - 548

Published: Apr 11, 2016

Abstract

Cell function depends on tissue rigidity, which cells probe by applying and transmitting forces to their extracellular matrix, and then transducing them into biochemical signals. Here we show that in response to matrix rigidity and density, force transmission and transduction are explained by the mechanical properties of the actin–talin–integrin–fibronectin clutch. We demonstrate that force transmission is regulated by a dynamic clutch...

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Paper Details

Title

Mechanical regulation of a molecular clutch defines force transmission and transduction in response to matrix rigidity

DOI

doi.org/10.1038/ncb3336

Published Date

Apr 11, 2016

Journal

Nature Cell Biology

Volume

18

Issue

5

Pages

540 - 548

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