Abstract

CAP (adenylyl cyclase-associated protein) was first identified in yeast as a protein that regulates both the actin cytoskeleton and the Ras/cAMP pathway. Although the role in Ras signaling does not extend beyond yeast, evidence supports that CAP regulates the actin cytoskeleton in all eukaryotes including mammals. In vitro actin polymerization assays show that both mammalian and yeast CAP homologues facilitate cofilin-driven actin filament turnover. We generated HeLa cells with stable CAP1 knockdown using RNA interference. Depletion of CAP1 led to larger cell size and remarkably developed lamellipodia as well as accumulation of filamentous actin (F-actin). Moreover, we found that CAP1 depletion also led to changes in cofilin phosphorylation and localization as well as activation of focal adhesion kinase (FAK) and enhanced cell spreading. CAP1 forms complexes with the adhesion molecules FAK and Talin, which likely underlie the cell adhesion phenotypes through inside-out activation of integrin signaling. CAP1-depleted HeLa cells also had substantially elevated cell motility as well as invasion through Matrigel. In summary, in addition to generating in vitro and in vivo evidence further establishing the role of mammalian CAP1 in actin dynamics, we identified a novel cellular function for CAP1 in regulating cell adhesion.

Highlights

  • Mammalian CAP1 functions in actin dynamics, with elusive mechanisms

  • This study identifies a novel cellular function for CAP1 in regulating cell adhesion, a cellular process that closely cooperates with actin dynamics to drive cell motility [26, 27]

  • CAP has been shown as an actin-regulatory protein conserved in all eukaryotes, and evidence supports that mammalian CAP regulates the actin cytoskeleton

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Summary

Background

Results: Knockdown of CAP1 in HeLa cells leads to alterations in the actin cytoskeleton, cofilin, and FAK phosphorylation and increased cell adhesion and motility. Conclusion: Mammalian CAP1 regulates actin cytoskeleton, cofilin, and FAK phosphorylation as well as cell adhesion. CAP (adenylyl cyclase-associated protein) was first identified in yeast as a protein that regulates both the actin cytoskeleton and the Ras/cAMP pathway. The role in Ras signaling does not extend beyond yeast, evidence supports that CAP regulates the actin cytoskeleton in all eukaryotes including mammals. In addition to generating in vitro and in vivo evidence further establishing the role of mammalian CAP1 in actin dynamics, we identified a novel cellular function for CAP1 in regulating cell adhesion. The role in Ras signaling does not extend beyond yeast, all CAP homologues appear to function as an actin-regulating protein [8]. The C terminus is the most highly conserved domain among CAP homo-

The abbreviations used are
EXPERIMENTAL PROCEDURES
RESULTS
DISCUSSION

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