Direct observation of [alpha]-actinin tension and recruitment at focal adhesions during contact growth

Adherent cells interact with extracellular matrix via cell-substrate contacts at focal adhesions. The dynamic assembly and disassembly of focal adhesions enables cell attachment, migration and growth. While the influence of mechanical forces on the formation and growth of focal adhesions has been wi...

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Veröffentlicht in:Experimental cell research 2014-09, Vol.327 (1), p.57
Hauptverfasser: Ye, Nannan, Verma, Deepika, Meng, Fanjie, Davidson, Michael W, Suffoletto, Kevin, Hua, Susan Z
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container_issue 1
container_start_page 57
container_title Experimental cell research
container_volume 327
creator Ye, Nannan
Verma, Deepika
Meng, Fanjie
Davidson, Michael W
Suffoletto, Kevin
Hua, Susan Z
description Adherent cells interact with extracellular matrix via cell-substrate contacts at focal adhesions. The dynamic assembly and disassembly of focal adhesions enables cell attachment, migration and growth. While the influence of mechanical forces on the formation and growth of focal adhesions has been widely observed, the force loading on specific proteins at focal adhesion complex is not clear. By co-expressing force sensitive [alpha]-actinin FRET probes and fluorescence labeled paxillin in MDCK cells, we have simultaneously observed the time-dependent changes in tension in [alpha]-actinin and the dynamics of focal adhesion during cell migration. We show that increase in tension in [alpha]-actinin at the focal adhesion coincides with elongation of the adhesion in its growth phase. The enlargement of focal adhesion is through a force sensitive recruitment of [alpha]-actinin and paxillin to the adhesion sites. Changes in [alpha]-actinin tension and correlated relocation of [alpha]-actinin in an active adhesion also guide the growth direction of the adhesion. The results support the model that cytoskeletal tension is coupled to focal adhesion via the linking protein, [alpha]-actinin at the adhesion complex. Lysophosphatidic acid caused an immediate increase in [alpha]-actinin tension followed by drastic focal adhesion formation and elongation. Application of Rho-ROCK inhibitor, Y27632, resulted in reversible reduction in tension in [alpha]-actinin and disassociation of focal adhesion, suggesting the involvement of myosin-II mediated contractile force in the focal adhesion dynamics. These findings suggest that [alpha]-actinin not only serves as a physical linker between cytoskeleton and integrin, but also participates in force transmission at adhesion sites to facilitate adhesion׳s growth. * Directly measured the changes in tension in [alpha]-actinin using stress sensitive FRET probes. * Focal adhesion growth is dynamically correlated to the increase in [alpha]-actinin tension and its recruitment. * Change in FA growth direction is facilitated by force-dependent [alpha]-actinin translocation. * Focal adhesion growth is mediated by Rho-ROCK pathway.
doi_str_mv 10.1016/j.yexcr.2014.07.026
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The dynamic assembly and disassembly of focal adhesions enables cell attachment, migration and growth. While the influence of mechanical forces on the formation and growth of focal adhesions has been widely observed, the force loading on specific proteins at focal adhesion complex is not clear. By co-expressing force sensitive [alpha]-actinin FRET probes and fluorescence labeled paxillin in MDCK cells, we have simultaneously observed the time-dependent changes in tension in [alpha]-actinin and the dynamics of focal adhesion during cell migration. We show that increase in tension in [alpha]-actinin at the focal adhesion coincides with elongation of the adhesion in its growth phase. The enlargement of focal adhesion is through a force sensitive recruitment of [alpha]-actinin and paxillin to the adhesion sites. Changes in [alpha]-actinin tension and correlated relocation of [alpha]-actinin in an active adhesion also guide the growth direction of the adhesion. The results support the model that cytoskeletal tension is coupled to focal adhesion via the linking protein, [alpha]-actinin at the adhesion complex. Lysophosphatidic acid caused an immediate increase in [alpha]-actinin tension followed by drastic focal adhesion formation and elongation. Application of Rho-ROCK inhibitor, Y27632, resulted in reversible reduction in tension in [alpha]-actinin and disassociation of focal adhesion, suggesting the involvement of myosin-II mediated contractile force in the focal adhesion dynamics. 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subjects Cell adhesion & migration
Cell growth
Cellular biology
Cytoskeleton
title Direct observation of [alpha]-actinin tension and recruitment at focal adhesions during contact growth
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