Reactive-site specificity of human kallistatin toward tissue kallikrein probed by site-directed mutagenesis.

Kallistatin is a serine proteinase inhibitor that forms complexes with tissue kallikrein and inhibits its activity. In this study, we compared the inhibitory activity of recombinant human kallistatin and two mutants, Phe388Arg (P1) and Phe387Gly (P2), toward human tissue kallikrein. Recombinant kallistatins were expressed in Escherichia coli and purified to apparent homogeneity using metal-affinity and heparin-affinity chromatography. The complexes formed between recombinant kallistatins and tissue kallikrein were stable for at least 150 h. Wild-type kallistatin as well as both Phe388Arg and Phe387Gly mutants act as inhibitors and substrates to tissue kallikrein as analyzed by complex formation. Kinetic analyses showed that the inhibitory activity of Phe388Arg variant toward tissue kallikrein is two-fold higher than that of wild type (P1Phe), whereas Phe387Gly had only 7% of the inhibitory activity toward tissue kallikrein as compared to wild type. The Phe388Arg variant but not wild type inhibited plasma kallikrein's activity. These results indicate that P1Arg variant exhibits more potent inhibitory activity toward tissue kallikrein while wild type (P1Phe) is a more selective inhibitor of tissue kallikrein. The P2 phenylalanine is essential for retaining the hydrophobic environment for the interaction of kallistatin and kallikrein.