Dualistic nature of adhesive protein function: fibronectin and its biologically active peptide fragments can autoinhibit fibronectin function.

Fibronectin and certain polypeptide regions of this adhesive glycoprotein mediate cell attachment and spreading on various substrates. We explored the theoretical prediction that this adhesive protein could become a competitive inhibitor of fibronectin-mediated processes if present in solution at appropriately high concentrations. Fibronectin function was inhibited by purified plasma fibronectin at 5-10 mg/ml, by a 75,000-dalton cell-interaction fragment of the protein at 0.5-1 mg/ml, and even by two synthetic peptides containing a conserved, hydrophilic amino acid sequence at 0.1-0.5 mg/ml. Inhibition of fibronectin-dependent cell spreading was dose dependent, noncytotoxic, and reversible. It was competitive in nature, since increased quantities of substrate-adsorbed fibronectin or longer incubation periods decreased the inhibition. A peptide inhibitory for fibronectin-mediated cell spreading also inhibited fibronectin-mediated attachment of cells to type I collagen, but it did not affect concanavalin A-mediated spreading. These results demonstrate the potential of a cell adhesion molecule and its biologically active peptide fragments to act as competitive inhibitors, and they suggest that fibronectin may act by binding to a saturable cell surface receptor.