Jennifer Bays scite author profile

Vinculin was identified as a component of focal adhesions and adherens junctions nearly 40 years ago. Since that time, remarkable progress has been made in understanding its activation, regulation and function. Here we discuss the current understanding of the roles of vinculin in cell–cell and cell–matrix adhesions. Emphasis is placed on the how vinculin is recruited, activated and regulated. We also highlight the recent understanding of how vinculin responds to and transmits force at integrin- and cadherin-containing adhesion complexes to the cytoskeleton. Furthermore, we discuss roles of vinculin in binding to and rearranging the actin cytoskeleton.

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Linking E-cadherin mechanotransduction to cell metabolism through force-mediated activation of AMPK

Bays

et al. 2017

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The response of cells to mechanical force is a major determinant of cell behavior and is an energetically costly event. How cells derive energy to resist mechanical force is unknown. Here, we show that application of force to E-cadherin stimulates Liver Kinase B1 (LKB1) to activate AMP-activated protein kinase (AMPK), a master regulator of energy homeostasis. LKB1 recruits AMPK to the E-cadherin mechanotransduction complex, thereby stimulating actomyosin contractility, glucose uptake, and ATP production. The increase in ATP provides energy to reinforce the adhesion complex and actin cytoskeleton so the cell can resist physiological forces. Together, these findings reveal a paradigm for how mechanotransduction and metabolism are linked and provide a framework for understanding how diseases involving contractile and metabolic disturbances arise.

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Vinculin phosphorylation differentially regulates mechanotransduction at cell–cell and cell–matrix adhesions

et al. 2014

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Harnessing Mechanobiology for Tissue Engineering

et al. 2021

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Jennifer Bays

Vinculin in cell–cell and cell–matrix adhesions

Linking E-cadherin mechanotransduction to cell metabolism through force-mediated activation of AMPK

Vinculin phosphorylation differentially regulates mechanotransduction at cell–cell and cell–matrix adhesions

Harnessing Mechanobiology for Tissue Engineering

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