Thrombin binding to GPIbalpha induces integrin alphaIIbbeta3 dependent platelet adhesion to fibrin in ex vivo flowing whole blood.

We have investigated the role of the thrombin/GPIbalpha interaction in the adhesion of platelets to fibrin in a whole blood ex vivo perfusion model at a shear rate of 280 s(-1). Blood was perfused through parallel-plate chambers containing coverslips coated with cells expressing tissue factor, leading to the generation of thrombin and thus, deposition of fibrin onto the exposed cells. Adhesion of platelets to fibrin and thrombus growth were analyzed. Interestingly, when GPIbalpha was removed from the platelet surface by action of mocarhagin, platelet adhesion on fibrin was inhibited. Furthermore, a monoclonal antibody, VM16d, directed against the thrombin binding site on GPIbalpha also inhibited platelet adhesion on fibrin, showing the importance of the thrombin/GPIbalpha interaction.We then looked at the involvement of alphaIIbbeta3 and showed that platelet adhesion and thrombus growth on fibrin were inhibited by the dodecapeptide, whereas lamifiban only inhibited the growth of the platelet thrombus. These results indicated that binding of thrombin to GPIbalpha induced an intracellular signaling leading to the interaction of the platelet integrin alphaIIbbeta3 with the fibrin-dodecapeptide sequence.