Effects of amino acid replacements around the reactive site of chicken ovomucoid domain 3 on the inhibitory activity toward chymotrypsin and trypsin

Abstract

We have previously shown that replacing the P1-site residue (Ala) of chicken ovomucoid domain 3 (OMCHI3) with a Met or Lys results in the acquisition of inhibitory activity toward chymotrypsin or trypsin, respectively. However, the inhibitory activities thus induced are not strong. In the present study, we introduced additional amino acid replacements around the reactive site to try to make the P1-site mutants more effective inhibitors of chymotrypsin or trypsin. The amino acid replacement Asp→Tyr at the P2' site of OMCHI3(P1Met) resulted in conversion to a 35,000-fold more effective inhibitor of chymotrypsin with an inhibitor constant (K(i)) of 1.17 x 10-11 M. The K(i) value of OMCHI3(P1Met, P2'Ala) indicated that the effect on the interaction with chymotrypsin of removing a negative charge from the P2' site was greater than that of introducing an aromatic ring. Similarly, enhanced inhibition of trypsin was observed when the Asp→Tyr replacement was introduced into the P2' site of OMCHI3(P1Lys). Two additional replacements, Asp→Ala at the P4 site and Arg→Ala at the P3' site, made the mutant a more effective inhibitor of trypsin with a K(i) value of 1.44 x 10-9 M. By contrast, Arg→Ala replacement at the P3' site of OMCH13(P1Met, P2'Tyr) resulted in a greatly reduced inhibition of chymotrypsin, and Asp→Ala replacement at the P4 site produced only a small change when compared with a natural variant of OMCHI3. These results clearly indicate that not only the P1-site residue but also the characteristics, particularly the electrostatic properties, of the amino acid residues around the reactive site of the protease inhibitor determine the strength of its interactions with proteases. Furthermore, amino acids with different characteristics are required around the reactive site for strong inhibition of chymotrypsin and trypsin.