The CDC42Hs protein appears to be an isoform of the ras-related GTP-binding protein G25K and is an apparent human homolog of the Saccharomyces cerevisiae cell-division-cycle protein, CDC42Sc. In this study, we report the identification of a GTPase-activating protein (GAP) for CDC42Hs from human platelets (designated from here on as CDC42Hs-GAP). The CDC42Hs-GAP activity was solubilized from platelet membranes, recovered through successive chromatography steps (the final step being Mono-Q chromatography), and purified approximately 3500-fold. The CDC42Hs-GAP activity appeared to correspond to a polypeptide with an apparent Mr of approximately 25,000. The GTPase activities of the purified human platelet CDC42Hs, the Escherichia coli-recombinant CDC42Hs, and the Spodoptera frugiperda-recombinant GTP-binding proteins are all stimulated by the CDC42Hs-GAP to identical extents, which indicates that the recombinant CDC42Hs proteins are as effective as the native human platelet protein in coupling to the GAP. However, a mutant form of the E. coli-recombinant CDC42Hs which contains a valine residue at position 12 (CDC42HsVal-12) has a significantly reduced intrinsic GTPase activity (relative to the wild type CDC42HsGly-12) which is not stimulated by the CDC42Hs-GAP. The CDC42Hs-GAP also does not stimulate the GTPase activities of the ras or rap GTP-binding proteins; however, it is capable of a weak stimulation of the GTPase activity of mammalian rho. Based on the apparent similarities in the molecular size of the CDC42Hs- and rho-GAPs (i.e. 25-30 kDa), and the cross-reactivity of rho with the CDC42Hs-GAP, it seems likely that the CDC42Hs- and rho-GAPs will constitute a specific subclass of the ras-related GAP superfamily.