Mechanosensing through talin 1 contributes to tissue mechanical homeostasis

Author:

Chanduri Manasa V.L.ORCID,Kumar AbhishekORCID,Weiss DarORCID,Emuna Nir,Barsukov IgorORCID,Shi Muisi,Tanaka KeiichiroORCID,Wang Xinzhe,Datye AmitORCID,Kanyo JeanORCID,Collin Florine,Lam TuKietORCID,Schwarz Udo D.ORCID,Bai Suxia,Nottoli TimothyORCID,Goult Benjamin TORCID,Humphrey Jay D.ORCID,Schwartz Martin AORCID

Abstract

AbstractIt is widely believed that tissue mechanical properties, determined mainly by the extracellular matrix (ECM), are actively maintained. However, despite its broad importance to biology and medicine, tissue mechanical homeostasis is poorly understood. To explore this hypothesis, we developed mutations in the mechanosensitive protein talin1 that alter cellular sensing of ECM stiffness. Mutation of a novel mechanosensitive site between talin1 rod domain helix bundles 1 and 2 (R1 and R2) shifted cellular stiffness sensing curves, enabling cells to spread and exert tension on compliant substrates. Opening of the R1-R2 interface promotes binding of the ARP2/3 complex subunit ARPC5L, which mediates the altered stiffness sensing. Ascending aortas from mice bearing these mutations show increased compliance, less fibrillar collagen, and rupture at lower pressure. Together, these results demonstrate that cellular stiffness sensing regulates ECM mechanical properties. These data thus directly support the mechanical homeostasis hypothesis and identify a novel mechanosensitive interaction within talin that contributes to this mechanism.

Publisher

Cold Spring Harbor Laboratory

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