The Arf GTPase-activating Protein, ASAP1, Binds Nonmuscle Myosin 2A to Control Remodeling of the Actomyosin Network.

Pei-Wen Chen, Xiaoying Jian, Sarah M Heissler, Kang Le, Ruibai Luo, Lisa M Jenkins, Attila Nagy, Joel Moss, James R Sellers, Paul A Randazzo

The Journal of biological chemistry 2016 Apr 01

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ASAP1 regulates F-actin-based structures and functions, including focal adhesions (FAs) and circular dorsal ruffles (CDRs), cell spreading and migration. ASAP1 function requires its N-terminal BAR domain. We discovered that nonmuscle myosin 2A (NM2A) directly bound the BAR-PH tandem of ASAP1in vitro ASAP1 and NM2A co-immunoprecipitated and colocalized in cells. Knockdown of ASAP1 reduced colocalization of NM2A and F-actin in cells. Knockdown of ASAP1 or NM2A recapitulated each other's effects on FAs, cell migration, cell spreading, and CDRs. The NM2A-interacting BAR domain contributed to ASAP1 control of cell spreading and CDRs. Exogenous expression of NM2A rescued the effect of ASAP1 knockdown on CDRs but ASAP1 did not rescue NM2A knockdown defect in CDRs. Our results support the hypothesis that ASAP1 is a positive regulator of NM2A. Given other binding partners of ASAP1, ASAP1 may directly link signaling and the mechanical machinery of cell migration. © 2016 by The American Society for Biochemistry and Molecular Biology, Inc.

Citation

Pei-Wen Chen, Xiaoying Jian, Sarah M Heissler, Kang Le, Ruibai Luo, Lisa M Jenkins, Attila Nagy, Joel Moss, James R Sellers, Paul A Randazzo. The Arf GTPase-activating Protein, ASAP1, Binds Nonmuscle Myosin 2A to Control Remodeling of the Actomyosin Network. The Journal of biological chemistry. 2016 Apr 01;291(14):7517-26