The ras-related low-molecular-mass GTPases participate in signal transduction involving a variety of cellular functions, including cell-cycle progression, cellular differentiation, cytoskeletal organization, protein transport and secretion. The cycling of these proteins between GTP-bound and GDP-bound states is partially controlled by GTPase activating proteins (GAPs) which stimulate the intrinsic GTP-hydrolysing activity of specific GTPases. The ras GTPase-activating protein (Ras-GAP) forms a complex with a second protein, p190 (M(r) 190,000), in growth-factor stimulated and tyrosine-kinase transformed cells. At its carboxy-terminal end, p190 contains a region that is conserved in the breakpoint cluster region, n-chimaerin, and Rho-GAP. Each of these three proteins exhibits GAP activity for at least one member of the rho family of small GTPases. We have tested recombinant p190 protein for GAP activity on GTPases of the ras, rho and rab families, and show here that p190 can function as a GAP specifically for members of the rho family. Consequently, the formation of a complex between Ras-GAP and p190 in growth-factor stimulated cells may allow the coupling of signalling pathways that involve ras and rho GTPases.
Endotoxic shock is a life-threatening consequence of severe Gram-negative infection characterized by vascular smooth muscle cell relaxation and severe hypotension. The production of nitric oxide (NO), through the inducible NO synthase pathway, has been implicated as a major contributor in this process. We now demonstrate that heme oxygenase (HO), an enzyme that generates carbon monoxide (CO) in the course of heme metabolism, may also be involved in the hemodynamic compromise of endotoxic shock. Inducible HO (HO-1) mRNA levels are dramatically increased in aortic tissue from rats receiving endotoxin, and this increase in vascular HO-1 message is associated with an 8.9-fold increase in HO enzyme activity in vivo. Immunocytochemical staining localizes an increase in HO-1 protein within smooth muscle cells of both large (aorta) and small (arterioles) blood vessels. Furthermore, zinc protoporphyrin IX, an inhibitor of HO activity, abrogates endotoxin-induced hypotension in rats. Studies performed in rat vascular smooth muscle cells in vitro show that the induction of HO-1 mRNA is regulated at the level of gene transcription, and this induction is independent of NO production. Taken together, these studies suggest that the up-regulation of HO-1, and the subsequent production of CO, contributes to the reduction in vascular tone during endotoxic shock.Endotoxemia leading to shock is a detrimental consequence of severe Gram-negative bacterial infection. Endotoxic shock is initiated by the release of bacterial cell wall-derived lipopolysaccharide (LPS) 1 and the subsequent production of cytokines and vasoactive mediators that result in vascular smooth muscle cell relaxation and hypotension (1, 2). One of the most important cytokines in the cascade of events leading to LPSinduced hypotension is interleukin (IL)-1 (1, 3). We have demonstrated previously that IL-1 stimulates the inducible isoform of nitric oxide synthase (NOS) and increases the production of NO in vascular smooth muscle cells (4). NO is a labile, free radical gas that acts as a potent vasodilator (5, 6). The importance of NO in the pathogenesis of endotoxic shock has been emphasized by recent studies demonstrating that mice carrying a disrupted inducible NOS gene have an attenuated hypotensive-response to LPS (7) and are resistant to LPS-induced death (7,8). However, the study by MacMicking and colleagues (7) also suggested that an inducible NOS-independent pathway contributes to LPS-induced hypotension and death, and we hypothesize that one potential pathway involves heme oxygenase (HO).HO is the enzyme that generates carbon monoxide (CO) and biliverdin (subsequently reduced to bilirubin) in the course of heme metabolism (9). CO is a gas molecule that shares some of the properties of NO, inasmuch as CO binds to the heme moiety of cytosolic guanylyl cyclase to produce cGMP (10). Two distinct forms of heme oxygenase have been identified (9): HO-1 (an inducible isozyme) and HO-2 (a non-inducible isozyme). Morita and colleagues (11) have demonstrated that HO-...
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