The role of the RGD peptides and the γ chain peptide of fibrinogen on fibrinogen binding to activated platelets

Abstract

The interaction of fibrinogen with platelet membrane glycoprotein (GP) IIb/IIIa complex is inhibited by the RGD peptides and the peptides corresponding to a sequence unique to fibrinogen in the carboxyl-terminal domain of the γ chain. The present study was designed to examine the effects of these synthetic peptides on fibrinogen binding to thrombin-activated platelets. The order of potency of these peptides was as follows: RGDS = RGDF > GQQHHLGGAKQAGDV (G15) . The RGES peptide had no inhibitory activity. The inhibitory effects of the peptides were synergistic when fibrinogen binding was measured in the mixture of the RGD peptide and the γ chain peptide. By contrast, the inhibitory effect was additive when the binding was measured in the presence of the RGDS peptide and the RGDF peptide. Thrombin-induced platelet aggregation was also inhibited by these synthetic peptides. The order of potency was the same as that of the inhibition binding assay. These results provide evidence that the RGD sequences present at two different sites in the α chain and the γ chain sequence inhibit fibrinogen binding to the GPIIb/IIIa complex, are mutually exclusive, and are in close spatial proximity in the folded molecule. We conclude that the presence of the RGD sequence and the γ chain sequence involved in fibrinogen binding domains increases the affinity of fibrinogen to activated platelets.