Literature DB >> 30274833

Local Tension on Talin in Focal Adhesions Correlates with F-Actin Alignment at the Nanometer Scale.

Abhishek Kumar1, Karen L Anderson2, Mark F Swift2, Dorit Hanein3, Niels Volkmann2, Martin A Schwartz4.   

Abstract

Cellular force transmission and mechanotransduction are critical in embryogenesis, normal physiology, and many diseases. Talin plays a key role in these processes by linking integrins to force-generating actomyosin. Using the previously characterized FRET-based talin tension sensor, we observed variations of tension both between and within individual focal adhesions in the same cell. Assembling and sliding adhesions showed gradients with higher talin tension toward the cell center, whereas mature, stable adhesions had uniform talin tension. Total talin accumulation was maximal in high-tension regions; by contrast, vinculin intensity was flat or maximal at the adhesion center, and actin intensity was maximal toward the cell center. To investigate mechanism, we combined talin tension imaging with cellular cryotomography to visualize the correlated actin organization at nanometer resolution. Regions of high talin tension had highly aligned linear actin filaments, whereas regions of low tension had less-well-aligned F-actin. These results reveal an orchestrated spatiotemporal relationship between talin tension, actin/vinculin localization, local actin organization, and focal adhesion dynamics.
Copyright © 2018 Biophysical Society. Published by Elsevier Inc. All rights reserved.

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Year:  2018        PMID: 30274833      PMCID: PMC6372196          DOI: 10.1016/j.bpj.2018.08.045

Source DB:  PubMed          Journal:  Biophys J        ISSN: 0006-3495            Impact factor:   4.033


  34 in total

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5.  Vinculin and metavinculin exhibit distinct effects on focal adhesion properties, cell migration, and mechanotransduction.

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8.  Different Vinculin Binding Sites Use the Same Mechanism to Regulate Directional Force Transduction.

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