Flow cytometric analysis of platelet activation by different collagen types present in the vessel wall

The interaction of platelets with collagens of the vessel wall is a critical event in primary haemostasis. Although numerous studies have examined the ability of various collagen types to support platelet adhesion, little is known concerning the relative ability of different collagens to elicit specific activation markers in platelets. In this report, now cytometric analysis has been utilized to evaluate the ability of various native collagen types to elicit secondary activation events in human platelets. Collagen types I, III, V and VI induced alpha-granule secretion and up-regulation of cell surface glycoprotein (GP) IIb/IIIa. In contrast, collagen type TV did not elicit these responses in the concentration ranges examined. Dose-response curves for alpha-granule secretion induced by the various collagen types indicated that human type III and human type I collagens were less effective than human type V, human type VI and calf skin type I. In addition, the ability of these various collagens to activate GPIIb/IIIa to its ligand binding conformation was even more heterogenous with only human type VI and calf skin type I readily promoting this transition. These data demonstrate that now cytometric analysis of collagen-induced platelet activation is feasible and that collagen-mediated alpha-granule secretion and membrane glycoprotein redistribution in human platelets are separate events from activation of GPIIb/IIIa.