The Crk signaling pathway contributes to the bombesin-induced activation of the small GTPase Rap1 in Swiss 3T3 cells

Abstract

Rap1 is a small GTPase implicated in cell proliferation and differentiation. The mechanisms how endogenous Rap1 is activated by many mitogenic stimuli including the neuropeptide bombesin remained unclear. Here we analyse which signaling pathways are necessary for Rap1 activation. Bombesin-mediated Rap1 activation in Swiss 3T3 and primary mouse embryo fibroblasts requires signaling components similar to those being essential for complex formation between p130Cas and Crk adapter proteins. The Crk/CRKL-binding region of the Rap1-specific exchange factor C3G (CBR) inhibits the bombesin-stimulated Rap1 activity in transfected Swiss 3T3 cells. Further characterization in COS cells showed that the CBR or a c-Crk I SH3 mutant specifically reduces both the basal as well as the stimulated Rap1 activity in a dose-dependent manner, whereas Ras is not affected. The CBR is complexed with endogenous c-Crk II and CRKL and blocks the protein association with catalytically active C3G. Such suppressors of Crk signaling do not affect Erk-phosphorylation induced by bombesin. Embryonic fibroblasts from b-raf knockout mice showed a bombesin-inducible Erk-phosphorylation, providing evidence that B-Raf does not link Rap1 to Erk-activation in bombesin-stimulated fibroblasts. We conclude that cellular Crk/CRKL complexes, recruited to upstream signaling components, contribute to basal and bombesin-induced Rap1 activity, which is independent from the Ras-Raf-Erk pathway under these circumstances.