APOLIPOPROTEIN-E AND LIPOPROTEIN-LIPASE REDUCE MACROPHAGE DEGRADATION OF OXIDIZED VERY LOW-DENSITY-LIPOPROTEIN (VLDL), BUT INCREASE CELLULAR DEGRADATION OF NATIVE VLDL

Oxidized low-density lipoprotein (Ox-LDL) has been shown to be taken up by the macrophage-scavenger receptor at an enhanced rate in comparison to native LDL, with consequent cellular cholesterol accumulation. In the present study, we analyzed macrophage interaction with very-low-density lipoprotein (VLDL) from normolipidemic subjects (N-VLDL) that was oxidized in the presence of 10 μmol/L copper ions. Oxidized VLDL (Ox-VLDL) contained increased conjugated dienes and malondialdehyde (MDA) equivalents and showed increased electrophoretic mobility. Gradual fragmentation of VLDL apolipoproteins (apo) was noted, with apo B-100 being the first to be fragmented, followed by apo E and apo C. Degradation of Ox-VLDL by mouse peritoneal macrophages (MPM) was increased almost twofold in comparison to N-VLDL. Upon incubation of VLDL with lipoprotein lipase (LPL), the LPL-treated lipoprotein demonstrated up to 50% increased degradation by macrophages in comparison to control N-VLDL. However, the degradation of LPL-treated Ox-VLDL was decreased by up to 20% in comparison to control Ox-VLDL. Similarly, the addition of apo E to VLDL enhanced its cellular degradation by 56%, whereas a 20% reduction in the degradation of apo E-treated Ox-VLDL was demonstrated in comparison to nontreated Ox-VLDL. These results showed that LPL and apo E, two important regulatory substances in cellular metabolism of plasma lipoproteins, increased macrophage degradation of native VLDL, but reduced the degradation of Ox-VLDL. These inhibitory effects on macrophage uptake of Ox-VLDL suggest that apo E and LPL may possess antiatherogenic potential. © 1992.