The integrin α9β1 binds to a novel recognition sequence (SVVYGLR) in the thrombin-cleaved amino-terminal fragment of osteopontin

The integrin α9β1 mediates cell adhesion to tenascin-C and VCAM-1 by binding to sequences distinct from the common integrin-recognition sequence, arginine-glycine-aspartic acid (RGD). A thrombin-cleaved NH2-terminal fragment of osteopontin containing the RGD sequence has recently been shown to also be a ligand for α9β1. In this report, we used site-directed mutagenesis and synthetic peptides to identify the α9β1 recognition sequence in osteopontin, α9-transfected SW480, Chinese hamster ovary, and L-cells adhered to a recombinant NH2-terminal osteopontin fragment in which the RGD site was mutated to RAA (nOPN-RAA). Adhesion was completely inhibited by anti-α9 monoclonal antibody Y9A2, indicating the presence of a non-RGD α9β1 recognition sequence within this fragment. Alanine substitution mutagenesis of 13 additional conserved negatively charged amino acid residues in this fragment had no effect on α9β1-mediated adhesion, but adhesion was dramatically inhibited by either alanine substitution or deletion of tyrosine 165. A synthetic peptide, SVVYGLR, corresponding to the sequence surrounding Tyr165, blocked α9β1-mediated adhesion to nOPN-RAA and exposed a ligand-binding-dependent epitope on the integrin β1 subunit on ∅9-transfected, but not on mock-transfected cells. These results demonstrate that the linear sequence SVVYGLR directly binds to α9β1 and is responsible for Åβ1-mediated cell adhesion to the NH2-terminal fragment of osteopontin.