Hirudin: amino-terminal residues play a major role in the interaction with thrombin.

Amino acid substitutions within the amino-terminal 5 residues of the thrombin-specific inhibitor hirudin dramatically alter its ability to inhibit the thrombin-catalyzed hydrolysis of both a chromogenic substrate and fibrinogen. Replacing the highly conserved Tyr-3 residue with Trp or Phe increases hirudin's affinity for thrombin 3-6-fold (decreases the inhibition constant, Ki) whereas Thr results in a 450-fold increase in Ki. A more extensive modification involving deletion of the amino-terminal Val, and Tyr-3----Val, Thr-4----Gln, and Asp-5----Ile replacement, results in a large reduction in thrombin inhibitory activity corresponding to greater than a 10(7)-fold increase in Ki and a 10(3)-fold increase in IC50, using D-Phe-L-pipecolyl-Arg-p-nitroanilide (S-2238) and fibrinogen, respectively, as substrates. Kinetic analysis of these mutant proteins and synthetic peptide fragments and available structural information on thrombin and hirudin derived from protein crystallography and two-dimensional NMR studies indicate that the amino-terminal region of hirudin binds at the apolar binding/active site region of thrombin, with Tyr-3 occupying the S3 specificity site. The large effect of these modifications on hirudin activity suggests that alteration of the amino-terminal segment can destabilize the interaction of other regions of hirudin with thrombin.