Effect of hydroxynitrobenzylation of tryptophan-177 on reactivity of active site cysteine-25 in papain

Abstract

It is known that the enzymatic activity of papain (EC 3.4.22.2) toward α- N-benzoyl- l-arginine p-nitroanilide can be substantially increased by hydroxynitrobenzylation of Trp-177 through reaction of the enzyme with the active site-directed reagent, 2-chloromethyl-4-nitrophenyl ( N-carbobenzoxy)glycinate ( S.-M. T. Chang and H. R. Horton, 1979, Biochemistry 18, 1559–1563). To determine the effect of such hydroxynitrobenzylation on the nucleophilicity of the essential thiol group at the active site of the enzyme, rates of inactivation by S N2 reactions of Cys-25 with chloroacetamide and chloroacetate and by Michael addition of Cys-25 to N-ethylmaleimide were monitored. The kinetics revealed that, at pH 6.5, the reactivities of the sulfhydryl group of hydroxynitrobenzylated papain with chloroacetamide and with N-ethylmaleimide are 24 and 27% greater than those of the sulfhydryl group of native papain. At pH 7.1, the rate enhancements are 34 and 39%, respectively. These increases in reactivity of Cys-25 as an attacking nucleophile appear to account for the increased catalytic activity of hydroxnitrobenzyl-papain toward an oligopeptide substrate, α- N-benzoyl- l-phenylalanyl- l-valyl- l-arginine p-nitroanilide, and toward an ester substrate, N-carbobenzoxyglycine p-nitrophenyl ester. However, the presence of the hydroxynitrobenzyl reporter group provides substantially greater improvement (250%) in enzymatic efficiency toward α- N-benzoyl- l-arginine p-nitroanilide, apparently by blocking nonproductive binding of this substrate to the enzyme. Fluorescence changes accompanying the various chemical modifications are interpreted in terms of a charge-transfer interaction between the imidazolium ion of His-159 and the indole moiety of Trp-177 in the active form of native papain, which should help to stabilize the catalytically essential mercaptide-imidazolium ion-pair (Cys-25, His-159).