Some differences in intracellular distribution and properties of the chymotrypsin-like esterase activity of human and rabbit neutrophils

Abstract

The intracellular localization and properties of the chymotrypsin-like esterase activity ( N- acetyl- DL- phenlylalanine β- naphthyl esterase acitivity) of the rabbit peritoneal neutrophil has been studied and shown to differ from that of the human neutrophil. The major portion of the esterase activity in the rabbit neutrophil is in the 100 000 × g supernatant fraction with distinctly less activity in the lysosomal fraction. The 100 000 × g supernatant contained the highest relative specific activity of any of the subcellular fractions. Rabbit peripheral blood neutrophils gave the same distribution. The 100 000 × g supernatant esterase is 95% esterase 1 and 5% esterase 3, whereas, the lysosomal esterase is 78% esterase 1, 10–16% esterase 2 and 9% esterase 3 as defined by their ability to be inhibited by p-nitrophenyllethyl-5-chloropentylphosphonate. The 100 000 × g supernatant The 100 000 × g supernatant and lysosomal esterase activities further differ in their susceptibility to other inhibitors, their pH optima, ease of elution from DEAE and isoelectric points. Two molecular weight species of 174 000 and 70 000 were found in the 100 000 × g supernatant fraction and extracts of the lysosomal fraction but usually in differing proportions. In confirmation of others, essentially all of the chymotrypsin-like esterase activity ( N- acetyl- DL- phenlylalanine β- naphthyl esterase activity) of the human neutrophil is in the lysosomal fraction, unlike the rabbit cell. The human neutrophil esterase was less susceptible to inhibition by p-nitrophenylethyl-5-chloropentylphosphonate and diisopropylphosphofluoridate but more susceptible to soybean trypsin inhibitor than rabbit esterase activity. The pH optimum of the human neutrophil esterase differed from either the rabbit lysosomal or 100 000 × g supernatant esterase, as did the isoelectric point and molecular weights.