BINDING OF GLYCOPROTEIN-IIIA-DERIVED PEPTIDE-217-231 TO FIBRINOGEN AND VONWILLEBRAND-FACTORS AND ITS INHIBITION BY PLATELET GLYCOPROTEIN-IIB/IIIA COMPLEX

Based on previous reports in the literature and the high homology between platelet glycoprotein (GP) IIIa 217-231 and similar portions of other beta-subunits of integrin receptors, we hypothesized that this region may participate in ligand binding. Using a polyclonal antibody against GPIIIa 217-231(YC), we tested the interaction of a synthetic peptide representing this region with fibrinogen (Fg), in the enzyme-linked immunosorbent assay (ELISA) system. Results show a calcium-independent, dose-related, direct interaction between GPIIIa 217-231(Y) and immobilized Fg. This peptide also bound to von Willebrand Factor (vWF) and fibronectin (Fn), but did not attach to a 50 kDa Fn fragment which is deficient in the cell attachment site. In addition, purified GPIIb/IIIa displaced GPIIIa 217-231(Y) from Fg and vWF. Binding of I-125-GPIIIa 217-231(Y) to Fg coated tubes was inhibited by soluble Fg and by the GPIIb/IIIa complex. We synthesized this peptide with several alterations; similar peptides with Pro-219 replaced with an Ala showed significantly reduced binding to Fg and vWF. The decreased binding of the peptides with Pro-219 substitutes suggests that the confirmation of GPIIIa 217-230 is important for its ability to bind to adhesive ligands. In conclusion, the amino acid residues between 217 and 231 of GPIIIa appear to be involved in ligand binding and Pro-219 probably plays a significant role in this interaction.