Characterization of canine hepatic and renal esterases.

Abstract

The esterases of canine liver and kidney were separated electrophoretically into nine bands with identical migration patterns in both tissues. An additional pair of rapidly migrating anodic bands were observed in hepatic extracts. Based on substrate specificity, the predominant tissue esterases were identified as nonspecific carboxylesterases (aliesterases). No cholinesterase activity was detected in the tissue extracts. Kinetic characteristics determined for the hepatic and renal esterases included (1) optimal pH; (2) Km values for esters of α-naphthyl and p-nitrophenol; (3) average rates of hydrolysis of α-naphthyl acetate and p-nitrophenyl acetate by the tissue extracts. Inhibition studies revealed the presence of two types of esterase activity in each tissue: one type being sensitive to organophosphorus esters, the second being resistant. A study of preferential substrate hydrolysis in the presence of known characteristic activators and inhibitors of esterases revealed approximately 5% and 20% arylesterase activity in liver and kidney, respectively. The presence of arylesterase activity in these tissues was confirmed by the hydrolysis of paraoxon (E600).