Abstract
Hyperapobetalipoproteinemia (hyperapo B), a common disorder associated with coronary artery disease, is characterized by an increased number of small, dense, low density lipoprotein (LDL) particles. The cellular mechanisms responsible for early atherosclerosis in hyperapo B are unknown. We tested the hypothesis that hyperapo B LDL may be preferentially metabolized through an LDL receptor independent pathway promoting the accumulation of cellular cholesteryl ester (CE). THP-1 macrophages have little inducible LDL receptor activity after differentiation with phorbol esters and are, therefore, suitable for assessing non-LDL receptor mediated uptake of lipoproteins. LDL isolated from hyperapo B donors was found to have significantly lower total cholesterol to protein ratio ( P = 0.03), higher average density ( P = 0.0001) and smaller particle diameter ( P = 0.016) compared with normal (control) LDL. LDL (250 μg lipoprotein-protein/ml) from normal ( n = 11) and hyperapo B ( n = 18) subjects were incubated for 24 h with THP-1 macrophages. The mean (S.D.) CE accumulation was 6.2 (3.6) for the normal and 6.4 (2.6) for the hyperapo B LDL ( P = 0.84). CE accumulation in cells incubated with malondialdehyde modified (MDA) LDL, or without added lipoprotein, was 18.2 (2.0) and 0.6 (0.7), respectively. CE mass accumulation was significantly correlated with time (6–48 h) of incubation and concentration (100–500 μg/ml) of LDL protein ( P < 0.05); no differences were observed between normal and hyperapo B LDL. Similarly, when the major LDL species was isolated by density gradient ultracentrifugation, mean (S.D.) CE was similar for the normal and hyperapo B LDL (8.7 (1.2) vs. 6.9 (1.5)). There were no differences in the mean (S.D.) incorporation of [ 14C]oleate into CE (nmol/mg cell protein per 6 h) in THP-1 macrophages incubated with normal or hyperapo B LDL (0.238 (0.045) vs. 0.211 (0.046)); results were comparable in human monocyte-derived (HMD) macrophages (0.298 (0.037) vs. 0.258 (0.022)). Also, mean (S.D.) cellular uptake and degradation (ng 125I/mg cell protein per h) in THP macrophages of normal and hyperapo B LDL were similar (uptake: 18 (14) vs. 12 (6.0); degradation: 58 (32) vs. 44 (8)). In summary: (1) hyperapo B LDL did not stimulate the accumulation of cellular CE via LDL receptor independent pathways in THP-1 macrophages, (2) normal and hyperapo B LDL stimulation of CE synthesis is similar in THP-1 and HMD macrophages and (3) no differences in cellular uptake and degradation of normal and hyperapo B LDL were observed in THP macrophages.
Published Version
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