Metabolism of lipoproteins in nonhuman primates. studies on the origin of low density lipoprotein apoprotein in the plasma of the squirrel monkey

Abstract

The plasma of squirrel monkeys contains extremely low levels of very low density lipoproteins. The delipidated apoproteins from the different lipoprotein density classes of this species show a heterogeneity similar to that of man and the rat. The biosynthesis of the apoproteins of squirrel monkey lipoproteins was studied in fasted normal and Triton WR1339-treated animals. After intravenous injection of [ 3H] leucine, maximal labeling of very low density lipoproteins occurred after 1 h, intermediate density lipoproteins ( d 1.006–1.019) in 2 h, and low density lipoproteins after 3 h. At all times, however, low density lipoproteins had the greatest percentage of radioactivity. Polyacrylamide gel electrophoresis revealed that the apoprotein B moiety of very low density and intermediate density lipoproteins contained 62% and 81% of the total radioactivity in these lipoproteins whereas the fast-migrating peptides were minimally labeled. In monkeys injected with Triton WR1339, 70–80% of the radioactivity incorporated into d < 1.063 lipoproteins was in very low density lipoproteins with only 10–15% in intermediate and low density lipoproteins. After injection of 3H-labeled very low density lipoproteins and [ 14C]leucine into Tritontreated monkeys, catabolism of 3-labeled very low density lipoprotein to intermediate and low density lipoproteins was small and was significantly less than corresponding values for the incorporation of [ 14C]leucine. Thus, breakdown of very low density lipoproteins could not account for all the labeled apoprotein B present in the intermediate and low density lipoprotein fractions. The results indicate that most, but not all, of the newly synthesized apoprotein B enters plasma in very low density lipoproteins and that the low concentrations of this lipoprotein in squirrel monkey plasma are a consequence of its rapid turnover.