mDia-interacting protein acts downstream of Rho-mDia and modifies Src activation and stress fiber formation.

The formin homology protein mDia is a Rho GTPase effector protein that participates in stress fiber formation, cytokinesis, and transcriptional activation of the serum response factor. Although the function of another effector of Rho, Rho-associated kinase, is well established, relatively little is known about the functional mechanism and the downstream targets of mDia. Our recent report of a Rho-mDia-Src-tyrosine kinase pathway suggested an important role for mDia in cell adhesion turnover. We identified a new mDia-interacting protein which is expressed ubiquitously. The new protein mainly binds to the proline-rich region of mDia through its Src homology 3 domain and also binds to Grb2 through its proline-rich domain. The protein is localized at the cell periphery and membrane ruffles and co-localizes with mDia. Co-expression of vSrc and the mDia-interacting protein induces significant morphological changes at focal contacts and activation of vSrc. Furthermore, we found that the mDia-interacting protein plays an important role in stress fiber formation induced by active mDia1. Our results suggest that this new protein regulates actin polymerization and cell adhesion turnover in the downstream portion of the Rho-mDia pathway by interacting with Grb2 and Src.