Platelet interaction with type III collagen is mediated by several platelet receptors that recognize specific sequences in collagen. We previously described an octapeptide KP*GEP*GPK within the ␣(1)III-CB4 fragment that binds to platelets and specifically inhibits platelet aggregation induced by type III collagen. In this study, we demonstrated that the octapeptide prevented platelet contact and spreading on type III collagen and subendothelium under static and flow conditions. Platelets adhered to the immobilized octapeptide, and antibodies directed against other platelet collagen receptors (glycoprotein (GP) Ia/IIa, GP IV, p65, p47) did not impair this adhesion. The platelet octapeptide receptor was identified by ligand blotting as a protein doublet with molecular masses of 68 and 72 kDa and does not correspond to any other already known platelet collagen receptors (GP Ia, GP IV GP VI, and p65). Our results indicate that a specific type III collagen receptor, expressed on the platelet surface, is involved in the first stages of platelet type III collagen interaction.Type I and type III collagens are predominant vascular thrombogenic molecules. Platelet interaction with collagen is a complex phenomenon, involving several platelet membrane glycoproteins (1) and nonintegrin receptors (2), with different binding sites on the collagen molecule coming into play in a specific order during the sequential phases of platelet collagen interaction, i.e. platelet contact, spreading, and aggregation. GP 1 Ia/IIa (integrin ␣ 2 / 1 , very late antigen-2) is a major collagen receptor. It binds to type I collagen via specific sequences within the ␣1(I)-CB3 fragment: residues 435-438 (DGEA) 2 (3) and residues 502-516 with an essential GER sequence (4), and within the ␣2(I)-CB4 peptide (5). Platelet GP Ia/IIa binds to the ␣1(III)-CB4 peptide on type III collagen and, more precisely, to a GGPP*GPR sequence (residues 522-528) (6). However, the role of GP Ia/IIa in platelet activation remains poorly understood, as it is not involved in the initial platelet contact (7) and it indirectly affects spleen tyrosine kinase phosphorylation during signal transduction (8). Spleen tyrosine kinase phosphorylation is induced by the binding of platelet GP VI to the GPP* sequences contained in the triple helical structure of collagen (9). Moreover, collagen-related peptides composed of a GPP* sequence repeats, are able to induce platelet aggregation via platelet GP VI (10). The platelet membrane glycoprotein GP IV (11) has been proposed as a collagen receptor, but its role seems to be restricted to type V collagen (12). Finally, Chiang et al. identified p65 as a specific type I collagen receptor that binds the ␣1(I)-CB5 fragment (13-15) and p47, which recognizes type III collagen (16).Previous studies from our laboratory showed that platelets bind to specific sequences of type I (17) and type III collagens (18 -20). In Particular, platelets react with an octapeptide in type III collagen that is located within the ␣1(III)-CB4 fragment (residues 49...
