Phosphatidic acid-dependent recruitment and function of the Rac activator DOCK1 during dorsal ruffle formation.

Fumiyuki Sanematsu, Akihiko Nishikimi, Mayuki Watanabe, Tsunaki Hongu, Yoshihiko Tanaka, Yasunori Kanaho, Jean-François Côté, Yoshinori Fukui

The Journal of biological chemistry 2013 Mar 22

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Activation of receptor tyrosine kinases leads to the formation of two different types of plasma membrane structures: peripheral ruffles and dorsal ruffles. Although the formation of both ruffle types requires activation of the small GTPase Rac, the difference in kinetics suggests that a distinct regulatory mechanism operates for their ruffle formation. DOCK1 and DOCK5 are atypical Rac activators and are both expressed in mouse embryonic fibroblasts (MEFs). We found that although PDGF-induced Rac activation and peripheral ruffle formation were coordinately regulated by DOCK1 and DOCK5 in MEFs, DOCK1 deficiency alone impaired dorsal ruffle formation in MEFs. Unlike DOCK5, DOCK1 bound to phosphatidic acid (PA) through the C-terminal polybasic amino acid cluster and was localized to dorsal ruffles. When this interaction was blocked, PDGF-induced dorsal ruffle formation was severely impaired. In addition, we show that phospholipase D, an enzyme that catalyzes PA synthesis, is required for PDGF-induced dorsal, but not peripheral, ruffle formation. These results indicate that the phospholipase D-PA axis selectively controls dorsal ruffle formation by regulating DOCK1 localization.

Citation

Fumiyuki Sanematsu, Akihiko Nishikimi, Mayuki Watanabe, Tsunaki Hongu, Yoshihiko Tanaka, Yasunori Kanaho, Jean-François Côté, Yoshinori Fukui. Phosphatidic acid-dependent recruitment and function of the Rac activator DOCK1 during dorsal ruffle formation. The Journal of biological chemistry. 2013 Mar 22;288(12):8092-8100