Abstract
Factor VIII/von Willebrand factor (FVIII/vWF) protein interaction with collagen was studied by incubating plasma or purified FVIII/vWF with purified type I fibrillar collagen. Collagen adsorbed FVIII/vWF activities in a similar time and concentration-dependent manner from normal plasma, plasmas from classical and variant type von Willebrand's disease (vWD), and from purified FVIII/vWF. Incubation with denatured collagen or fibrin, produced in the presence or absence of fibronectin, showed no adsorption of FVIII/vWF. Examination of the multimeric structure of the remaining unadsorbed FVIII/vWF protein by agarose gel electrophoresis and autoradiography showed that the largest multimers had been adsorbed to the collagen. Studies of the adsorbed FVIII/vWF protein when eluted from collagen showed that it complemented the alterations in multimeric structure observed in the supernatants following collagen exposure. The multimeric structure of normal plasma following collagen adsorption resembled that of unadsorbed type IIb plasma; however, the collagen-adsorbed normal plasma did not produce enhanced ristocetin-induced platelet aggregation ( RIPA ). This phenomenon, therefore, must not be due solely to absence of large multimers from type IIb FVIII/vWF protein. The adsorbed multimers of FVIII/vWF protein may act as a subendothelial collagen-platelet bridge to promote primary hemostasis.