ApoA-II kinetics in humans using endogenous labeling with stable isotopes: slower turnover of apoA-II compared with the exogenous radiotracer method.

ApoA-II is a major apolipoprotein constituent of high density lipoproteins (HDL) and may play an important role in lipoprotein metabolism and predisposition to atherosclerosis. Previous radiotracer kinetic studies have suggested that the metabolism of apoA-II in humans may be different than the metabolism of apoA-I, the major HDL apolipoprotein. In the present study, we have used an endogenous labeling technique using stable isotopically labeled amino acids to study apoA-II metabolism and compared the results to those obtained by a simultaneous exogenous radiotracer labeling method. Seven subjects with HDL cholesterol levels ranging from 9 to 93 mg/dl and apoA-II levels from 13 to 60 mg/dl were investigated in this study. [13C6]phenylalanine and 131I-labeled apoA-II were simultaneously administered as a primed-constant infusion and a bolus injection, respectively. In the endogenous labeling study, plateau tracer/tracee ratios of VLDL apoB-100 were used as estimates for the precursor pool tracer/tracee ratios for apoA-II synthesis. Residence times of apoA-II using these two independent methods were found to be highly correlated (r = 0.973, P < 0.0002). These results indicate that the endogenous labeling of apoA-II using stable isotopically labeled amino acids is a reasonable alternative to the conventional exogenous radiotracer labeling method for the investigation of apoA-II turnover. However, under the conditions of our experimental design and modeling strategy, the apoA-II residence times as determined by endogenous labeling were significantly longer (mean 5.33 days) than by exogenous radiotracer (mean 4.65 days). This suggests that apoA-II turnover may be even slower than believed based on radiotracer studies, and further supports the concept that HDL containing apoA-II are metabolized differently than HDL without apoA-II.