On the turnover and proteolysis of catalase in tissues of the guinea pig and acatalasemic mice

Abstract

Turnover characteristics (half-lives and rate constants for synthesis and degradation) have been determined for the catalases of guinea pig and three different strains of mice by means of the kinetics of return of enzyme activity after inhibition with 3-amino-1,2,4-triazole. The catalase of hypocatalasemic mice (strain C sD) did not display an appreciably different half-life to that of the wild-type mice, but catalase in the tissues of acatalasemic mice (strain C sB) exhibited a half-life which was only half that of the wild type, while the half-life of guinea pig catalase was more than twice that of wild-type mice. Significant differences were also noticed in regard to the in vitro susceptibility of the catalases of these animals to protease inactivation. Large-granule (lysosomal, mitochondrial and peroxisomal) extracts proved far more susceptible to protease inactivation than cytosol extracts, and marked changes in the heteromorph pattern of mouse liver cytosol catalase were observed to accompany limited proteolysis. These results support the conclusion that the in vitro susceptibility of proteases may be an important determining factor in the rate of degradation of an enzyme in vivo.