Quantitative importance of biliary excretion to the turnover of hepatic lysosomal enzymes

Abstract

The turnover rate of an individual protein is a function of the rates of synthesis and loss of that protein. For most intracellular proteins, loss occurs through digestion by lysosomal or cytosolic proteases. Although a significant proportion of hepatic lysosomal enzymes is released from the hepatocyte by excretion into bile, the contribution of biliary excretion to the turnover of hepatic lysosomal enzymes has never been measured. Thus, we used in vivo pulse-labeling to determine the half-lives of two hepatic hydrolases, beta-galactosidase (beta-gal) and beta-glucuronidase (beta-glu). Each enzyme was purified by immunoisolation from hepatic lysosomes that were isolated at various times after injection of rats with 3H-labeled leucine. The decay curves for the specific radioactivities of beta-gal and beta-glu were used to calculate the half-lives of the proteins, which were 3.8 and 5.1 days, respectively. To determine the percent of total hepatic contents of each enzyme that was lost per day by biliary excretion, we collected bile from bile fistula rats for 24 hours and then used radioimmunoassays to quantitate the amounts of beta-gal and beta-glu in bile and liver samples of the same rats. We found that approximately 4% of the total hepatic contents of both beta-gal and beta-glu was excreted into bile per day. Finally, we used these data to calculate that 31% and 41% of hepatic losses of beta-gal and beta-glu, respectively, were due to biliary excretion. These results suggest that extracellular release through biliary excretion is a major mechanism contributing to the turnover of lysosomal hydrolases.