Identification of amino acid residues essential for von Willebrand factor binding to platelet glycoprotein Ib. Charged-to-alanine scanning mutagenesis of the A1 domain of human von Willebrand factor.

At sites of vascular injury, von Willebrand factor (VWF) mediates platelet adhesion through binding to platelet glycoprotein Ib (GPIb). The VWF-GPIb interaction was investigated by clustered charged-to-alanine scanning mutagenesis of VWF domain A1 between His-473 and Gly-716. Recombinant variants of VWF were assayed for binding to conformation-dependent monoclonal antibody NMC-4, for ristocetin-induced and botrocetin-induced binding to platelets, and for direct binding to botrocetin. Substitutions at 32 amino acids had no effect on VWF function. The epitope of NMC-4 depended on charged residues between Asp-514 and Arg-632 and not on segments previously implicated by peptide inhibition studies, Cys-474-Pro-488 and Leu-694-Pro-708. Substitutions at Glu-626 and in the segment Asp-520-Lys-534 abolished ristocetin-induced binding of VWF to GPIb but did not affect botrocetin-induced binding, suggesting that these regions are required for modulation by ristocetin but not for binding of VWF to GPIb. Mutations at Glu-596 and Lys-599 decreased binding of VWF to GPIb without affecting its binding to botrocetin, suggesting that this segment interacts directly with GPIb. Alanine substitutions at Arg-545 and in the segments Glu-497-Arg-511 and Arg-687-Glu-689 caused increased binding of VWF to GPIb. These results, and the locations of von Willebrand disease type 2B mutations, suggest that two acidic regions containing the Cys-509-Cys-695 disulfide (Glu-497-Arg-511, Arg-687-Val-698) and one predominantly basic region (Met-540-Arg-578) cooperate to inhibit a distinct GPIb binding site in the VWF A1 domain. This inhibition is relieved by specific mutations, by the modulators ristocetin and botrocetin, or by binding to subendothelial connective tissue.