Effects of mutations in the cytoplasmic domain of integrin beta(1) to talin binding and cell spreading.

Integrins are transmembrane proteins linking the extracellular matrix or certain cell-cell contacts to the cytoskeleton. To study integrin-cytoskeleton interactions we wanted to relate talin-integrin interaction to integrin function in cell spreading and formation of focal adhesions. For talin-binding studies we used fusion proteins of glutathione S-transferase and the cytoplasmic domain of integrin beta(1) (GST-cytobeta(1)) expressed in bacteria. For functional studies chimeric integrins containing the extracellular and transmembrane parts of beta(3) linked to the cytoplasmic domain of beta(1) were expressed in CHO cells as a dimer with the alpha(IIb) subunit. Point mutations in the amino acid sequence N(785)PIY(788) of beta(1) disrupted both the integrin-talin interaction and the ability of the integrin to mediate cell spreading. COOH-terminal truncation of beta(1) at the amino acid position 797 disrupted its ability to mediate cell spreading, whereas the disruption of talin binding required deletion of five more amino acids (truncation at position 792). A synthetic peptide from this region of beta(1) (W(780)DTGENPIYKSAV(792)) bound to purified talin and inhibited talin binding to GST-cytobeta(1). The ability of the mutants to mediate focal adhesion formation or to codistribute to focal adhesions formed by other integrins correlated with their ability to mediate cell spreading. These results confirm the previous finding that a talin-binding site in the integrin beta(1) tail resides at or close to the central NPXY motif and suggest that the integrin-talin interaction is necessary but not sufficient for integrin-mediated cell spreading. Copyright 1999 Academic Press.