β-Subunit Binding Is Sufficient for Ligands to Open the Integrin αIIbβ3 Headpiece

The platelet integrin α_IIbβ₃ binds to a KQAGDV motif at the fibrinogen γ-chain C terminus and to RGD motifs present in loops in many extracellular matrix proteins. These ligands bind in a groove between the integrin α and β-subunits; the basic Lys or Arg side chain hydrogen bonds to the α_IIb-subunit, and the acidic Asp side chain coordinates to a metal ion held by the β₃-subunit. Ligand binding induces headpiece opening, with conformational change in the β-subunit. During this opening, RGD slides in the ligand-binding pocket toward α_IIb, with movement of the βI-domain β1-α1 loop toward α_IIb, enabling formation of direct, charged hydrogen bonds between the Arg side chain and α_IIb. Here we test whether ligand interactions with β₃ suffice for stable ligand binding and headpiece opening. We find that the AGDV tetrapeptide from KQAGDV binds to the α_IIbβ₃ headpiece with affinity comparable with the RGDSP peptide from fibronectin. AGDV induced complete headpiece opening in solution as shown by increase in hydrodynamic radius. Soaking of AGDV into closed α_IIbβ₃ headpiece crystals induced intermediate states similarly to RGDSP. AGDV has very little contact with the α-subunit. Furthermore, as measured by epitope exposure, AGDV, like the fibrinogen γ C-terminal peptide and RGD, caused integrin extension on the cell surface. Thus, pushing by the β₃-subunit on Asp is sufficient for headpiece opening and ligand sliding, and no pulling by the α_IIb subunit on Arg is required.