Abstract

In a previous report [Largman, C., Brodrick, J.W., Geokas, M.C., Sischo, W.M., & Johnson, J.H. (1979) J. Biol. Chem. 254, 8516-8523] it was demonstrated that human proelastase 2 and alpha 1-protease inhibitor react slowly to form a complex that is stable to denaturation with sodium dodecyl sulfate and beta-mercaptoethanol and that the zymogen can be recovered from the isolated complex following dissociation by hydroxylamine. The present report demonstrates that bovine chymotrypsinogen A reacts with human alpha 1-protease inhibitor in a very similar manner. The rate of complex formation was measured by two methods. In the first, the reaction was followed by determining the loss of the inhibitory activity of alpha 1-protease inhibitor as a function of time. A second-order rate constant for complex formation formation (pH 7.6, 36 degrees C) of 12.9 +/- 2.4 M-1s-1 was obtained. In the second procedure, the reaction of fluorescein isothiocyanate labeled chymotrypsinogen A with alpha 1-protease inhibitor was measured by fluorescence polarization. A second-order rate constant (pH 7.6, 37 degrees C) of 13.9 +/- 2.1 M-1s-1 was obtained. The rate of complex formation is approximately 10(-5) of that measured for the reaction of bovine chymotrypsin with alpha 1-protease inhibitor. Dissociation of the complex was not observed after dilution or the addition of excess bovine alpha-chymotrypsin. As judged by sodium dodecyl sulfate-polyacrylamide gel electrophoresis experiments, human chymotrypsinogens I and II react with alpha 1-protease inhibitor at rates that are approximatley equivalent to that determined for bovine chymotrypsinogen A. In contrast, bovine trypsinogen reacts very slowly with alpha 1-protease inhibitor, at a rate that is at most 10(-2) of that of bovine chymotrypsinogen A. These results suggest that zymogens react with alpha 1-protease inhibitor by virtue of partially formed active sites and that the potential active-site specificity of the zymogen in part determines the rate of complex formation.

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