Abstract
Attachment of platelets from the circulation onto a growing thrombus is a process involving multiple platelet receptors, endothelial matrix components, and coagulation factors. It has been indicated previously that during a transglutaminase reaction activated factor XIII (FXIIIa) covalently cross-links von Willebrand factor (VWF) to polymerizing fibrin. Bound VWF further recruits and activates platelets via interactions with the platelet receptor complex glycoprotein Ib (GPIb). In the present study we found proof for binding of VWF to a fibrin monomer layer during the process of fibrinogen-to-fibrin conversion in the presence of thrombin, arvin, or a snake venom from Crotalus atrox. Using a domain deletion mutant we demonstrated the involvement of the C domains of VWF in this binding. Substantial binding of VWF to fibrin monomers persisted in the presence of the FXIIIa inhibitor K9-DON, illustrating that cross-linking via factor XIII is not essential for this phenomenon and suggesting the identification of a second mechanism through which VWF multimers incorporate into a fibrin network. Under high shear conditions, platelets were shown to adhere to fibrin only if VWF had been incorporated. In conclusion, our experiments show that the C domains of VWF and the E domain of fibrin monomers are involved in the incorporation of VWF during the polymerization of fibrin and that this incorporation fosters binding and activation of platelets. Fibrin thus is not an inert end product but partakes in further thrombus growth. Our findings help to elucidate the mechanism of thrombus growth and platelet adhesion under conditions of arterial shear rate.
Highlights
Fibrin formation, adhesion of platelets, and activation of coagulation factors are important processes associated with the formation of a thrombus under conditions of high hydrodynamic shear stress
von Willebrand factor (VWF) Interacts with a Fibrin(ogen) Monolayer in the Presence of Thrombin—In a first set of experiments we studied the interaction between VWF and immobilized fibrinogen on a silicon surface under stirring conditions using ellipsometry (Fig. 1A)
These findings suggest that the cleavage of fibrinopeptides A (FpA) and/or FpB from fibrinogen is required to allow interaction between VWF and fibrinogen
Summary
In this study we investigated the binding of VWF with fibrinogen, fibrin monomers, and polymerized fibrin using ellipsometry and surface plasmon resonance (SPR). We performed flow experiments in which VWF-fibrin surfaces were perfused with washed platelets. Our results indicate that VWF incorporates via its C1C2 domain into an evolving fibrin network only after the thrombin-catalyzed removal of fibrinopeptides A (FpA) and/or B (FpB). We have demonstrated that fibrin-bound VWF plays an important role in the adhesion of platelets to fibrin at high shear rate
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