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Inhibition of fibrinogen binding to human platelets by S-nitroso-N-acetylcysteine
Authors:M E Mendelsohn  S O'Neill  D George  J Loscalzo
Institution:Cardiovascular Division, Brigham and Women's Hospital, Boston, Massachusetts 02115.
Abstract:Because of the central role of fibrinogen binding in platelet aggregation and recent evidence implicating S-nitrosothiol compounds in the platelet inhibitory effects of endogenous and exogenous organic nitrate compounds, we examined the effect of the S-nitrosothiol S-nitroso-N-acetylcysteine (SNOAC) on fibrinogen binding to gel-filtered human platelets. We found that SNOAC markedly inhibited the binding of fibrinogen to normal human platelets in a dose-dependent fashion and that this inhibitory effect was the result of both an increase in the apparent Kd of the platelet receptor for the fibrinogen molecule (from 6.8 x 10(-7) to 1.8 x 10(-6) M, a 2.7-fold increase) and a decrease in the total number of fibrinogen molecules bound to the platelet (from 76,200 to 38,250, a 50% decrease). In addition, we noted a rapid, dose-dependent rise in platelet cyclic GMP levels following exposure of platelets to SNOAC which was significantly inversely correlated with fibrinogen binding and was accompanied by inhibition of intracellular calcium flux in response to a variety of platelet agonists. Similar dose-dependent inhibition of fibrinogen binding was found in the presence of cyclic GMP analogues and was significantly enhanced by inhibition of platelet cyclic GMP phosphodiesterase. These results describe the inhibition of platelet fibrinogen binding by an S-nitrosothiol compound, help define the biochemical mechanism by which S-nitrosothiols inhibit platelet aggregation, and lend support to the view that cyclic GMP is an important inhibitory intracellular mediator in human platelets.
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