The effects of vitronectin on specific interactions between urokinase-type plasminogen activator and its receptor: ab initio molecular orbital calculations

Binding of urokinase-type plasminogen activator (uPA) to its receptor (uPAR) on the surface of a cancer cell is considered to be a trigger for starting cancer invasions. In addition, the somatomedin B (SMB) domain of vitronectin binds simultaneously to uPAR to construct a ternary complex of uPAR–uPA–SMB. Here we present stable structures of the solvated complexes of uPAR–uPA and uPAR–uPA–SMB obtained by classical molecular mechanics simulations, and the specific interactions between uPAR, uPA and SMB are investigated by ab initio fragment molecular orbital calculations. The result indicates that the SMB binding enhances the binding affinity between uPAR and uPA, although there is no direct contact between SMB and uPA. In particular, the specific interaction between uPAR and the Lys36 residue of uPA is significantly affected by the SMB binding. The positively charged Lys23, Lys46 and Lys61 residues of uPA have strong attractive interactions to uPAR in both the uPAR–uPA and uPAR–uPA–SMB complexes, demonstrating the importance of these residues in the specific binding between uPAR and uPA. The current results on the specific interactions are informative for proposing potent antagonists, which block the uPA and SMB bindings to uPAR.