2018
DOI: 10.1038/s41467-018-07481-7
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Force-dependent allostery of the α-catenin actin-binding domain controls adherens junction dynamics and functions

Abstract: α-catenin is a key mechanosensor that forms force-dependent interactions with F-actin, thereby coupling the cadherin-catenin complex to the actin cytoskeleton at adherens junctions (AJs). However, the molecular mechanisms by which α-catenin engages F-actin under tension remained elusive. Here we show that the α1-helix of the α-catenin actin-binding domain (αcat-ABD) is a mechanosensing motif that regulates tension-dependent F-actin binding and bundling. αcat-ABD containing an α1-helix-unfolding mutation (H1) s… Show more

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Cited by 96 publications
(201 citation statements)
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References 81 publications
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“…One expects that a contracting cell applies a force on the junctional complexes linking it to its neighbors within the epithelium (Fig A). To assess this action, we employed a reporter for tension across adherens junctions, based on the force‐dependent conformational state of α‐Catenin . α‐Catenin exhibits a force‐dependent switch between two stable conformations.…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…One expects that a contracting cell applies a force on the junctional complexes linking it to its neighbors within the epithelium (Fig A). To assess this action, we employed a reporter for tension across adherens junctions, based on the force‐dependent conformational state of α‐Catenin . α‐Catenin exhibits a force‐dependent switch between two stable conformations.…”
Section: Resultsmentioning
confidence: 99%
“…Firstly, we applied a Vinculin‐derived reporter, which preferentially binds to the open conformation of α‐Catenin. α‐Catenin undergoes a force‐dependent conformational change, which opens a Vinculin binding site under mechanical pull . Secondly, we directly assayed junctional tension in neighboring cells by measuring the initial recoil velocity after ablation.…”
Section: Discussionmentioning
confidence: 99%
“…We took advantage of the Yki-dependent increase in adult wing size upon α-Cat overexpression to assess the function of different α-Cat domains in tissue growth. For these tests we used constructs we published previously [Sarpal et al, 2012;Desai et al, 2013;Ishiyama et al, 2018] and a new set of constructs that were rendered resistant to α-Cat-RNAi(1) and α-Cat-RNAi(2) and will be designated as α-CatR-XX. Both α-Cat and α-CatR encode wildtype proteins.…”
Section: The M Region Of α-Cat Modulates Tissue Growthmentioning
confidence: 99%
“…α-catenin can also act as a mechanosensor. Biochemical responses to mechanosensing are thought to have multiple consequences [Pinhero and Bellaiche, 2018;Charras and Yap, 2018;Yap et al, 2018], including a strengthening of F-actin binding to enhance cell adhesion [Yonemura et al, 2010;Buckley et al, 2014;Ishiyama et al, 2013;2018], reorganization of actin at cell junctions [Ishiyama et al, 2018], and modulation of cell signalling that regulates tissue growth through the Hippo/YAP pathway [Rauskolb et al, 2014]. However, in vivo evidence for specific functions of α-catenin-mediated mechanosensing remains very limited.…”
Section: Introductionmentioning
confidence: 99%
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