Characterization and metabolic fate of two very-low-density lipoprotein subfractions separated by heparin-sepharose chromatography

Abstract

Human very-low-density lipoproteins (VLDL) have been separated into two discrete subfractions by heparin-Sepharose chromatography. The retained fraction relative to the unretained fraction is characterized by an increased cholesterol ester/triacylglycerol ratio and an increased ratio of apolipoprotein E relative to apolipoprotein C. We have subfractionated VLDL from type IV hyperlipoproteinemic subjects and characterized these subfractions with respect to (i) composition and (ii) the metabolic fate of apolipoprotein B of each subfraction. The unretained fraction accounted for an average of 42% of total VLDL in type IV subjects. A similar distribution was obtained with VLDL from Type III subjects; however, only 25% of normal VLDL is in the unretained fraction. The apolipoprotein E/apolipoprotein C ratio was 2–8-fold higher in the retained fraction. The distribution of apolipoprotein E isomorphs and the individual C apolipoproteins were similar in each fraction. Retained and unretained fractions were labelled with 125I and/or 131I and injected simultaneously into miniature pigs. Apolipoprotein B of retained fractions was catabolized at a greater rate ( fractional catabolic rate = 0.98 h −1 vs. 0.54 h −1, n = 7, P < 0.05) compared to unretained fractions. These results are consistent with the concept that reduced content of C apolipoproteins in VLDL is correlated with enhanced uptake by perfused rat livers. Apolipoprotein B from retained fractions was converted to intermediate-density lipoproteins (IDL) at a greater rate, and apolipoprotein B from both fractions were converted to low-density lipoproteins (LDL). Although the unretained fraction may be the precursor of the retained fraction, the possibility exists that each fraction is largely synthesized and catabolized independently.