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Abstract
RhoB is an endosomal small GTPase that is implicated in the response to growth factors, genotoxic stress, and farnesyltransferase inhibitors. To gain insight into its physiological functions we examined the consequences of homozygous gene deletion in the mouse. Loss of RhoB did not adversely affect mouse development, fertility, or wound healing. However, embryo fibroblasts cultured in vitro exhibited a defect in motility, suggesting that RhoB has a role in this process that is conditional on cell stress. Neoplastic transformation by adenovirus E1A and mutant Ras yielded differences in cell attachment and spreading that were not apparent in primary cells. In addition, transformed −/− cells displayed altered actin and proliferative responses to transforming growth factor β. A negative modifier role in transformation was suggested by the increased susceptibility of −/− mice to 7,12-dimethylbenz[a]anthracene-induced skin carcinogenesis and by the increased efficiency of intraperitoneal tumor formation by −/− cells. Our findings suggest that RhoB is a negative regulator of integrin and growth factor signals that are involved in neoplastic transformation and possibly other stress or disease states.
ACKNOWLEDGMENTS
We thank B. Han and M. Mendelsohn for help in generating the knockout mice and T. Jessell for support.
N.R. is the recipient of a postdoctoral fellowship from the U.S. Army Breast Cancer Research Program. J.-P.L. is a recipient of a Burroughs Wellcome Fund Career Award in the Biomedical Sciences. This study was supported by NIH grant CA82222 to G.C.P.