| Abstract: | We have studied the inhibition of ADP-induced platelet aggregation in sheep platelet-rich plasma by water-soluble polymers bound to the prostaglandin analogue 5-(6-carboxyhexyl)-1-(3-cyclohexyl-3-hydroxypropyl)hydantoin ('BW 245' C, (I). The use of unambiguous modes of binding this antiplatelet drug to polymers has enabled us to study some structural features which influence inhibitory activity. Evidence is adduced which indicates that the chemical mechanisms responsible for inhibition by free and coupled BW 245 are similar. The most important observation is a remarkable synergism demonstrated by the greatly enhanced activity of a mixture of a polymer coupled to BW 245 with the uncoupled parent polymer. In some cases (e.g., with high-molecular-weight dextran) the effect may reach (and possibly exceed) two orders of magnitude. The influence of polymer molecular weights and 'cross-polymer' effects have both been examined. A mechanism has been proposed to account for these phenomena, involving adsorption of the added (inactive) polymer on to the platelet membranes, facilitating interaction of the polymer-bound drug with receptors, made more accessible by alteration to the surface geometry. This mechanism is based on physical processes, unlike other explanations of synergistic behaviour, e.g., that of prostaglandins used in conjunction with non-polymeric drugs. The observed dependences of synergistic effects upon polymer molecular weight and type and distribution of drug molecules along chains are typical 'polymer' phenomena which are all consistent with the proposed mechanism. |
