Adhesion-dependent regulation of p190RhoGAP in the developing brain by the Abl-related gene tyrosine kinase

Abl family kinases, which include the mammalian Abl and Arg (Abl-related gene) kinases, regulate neuronal morphogenesis in developing metazoa (for review, see [1]). Activation of Abl kinase activity directs changes in actin-dependent processes such as membrane ruffling, filopodial protrusion, and cell motility [2-6]. However, the mechanisms by which increased Abl or Arg kinase activity promote cytoskeletal rearrangements are unclear. We provide evidence that the Rho inhibitor p190RhoGAP (GTPase-activating protein) is an Arg substrate in the postnatal mouse brain. We show that p190RhoGAP has reduced phosphotyrosine content in postnatal arg(-/-) mouse brain extracts relative to wild-type extracts. In addition, the adhesion-dependent stimulation of p190RhoGAP phosphorylation observed in wild-type cells is not observed in arg(-/-) fibroblasts and neurons. Arg can phosphorylate p190RhoGAP in vitro and in vivo on tyrosine (Y) 1105. We find that Arg can stimulate p190RhoGAP to inhibit Rho and that Arg-mediated phosphorylation is required for this stimulation. Phosphorylation by Arg also promotes p190RhoGAP's association with p120RasGAP and stimulates p190RhoGAP's ability to induce neurito-genesis in neuroblastoma cells. Our results demonstrate that p190RhoGAP is an Arg substrate in the developing brain and suggest that Arg mediates the adhesion-dependent regulation of neuronal morphogenesis in the postnatal brain by phosphorylating p190RhoGAP.