Abstract
Scavenger receptor-mediated uptake of oxidized LDL (oxLDL) is thought to be the major mechanism of foam cell generation in atherosclerotic lesions. Recent data has indicated that native LDL is also capable of contributing to foam cell formation via low-affinity receptor-independent LDL particle pinocytosis and selective cholesteryl ester (CE) uptake. In the current investigation, Cu(2+)-induced LDL oxidation was found to inhibit macrophage selective CE uptake. Impairment of selective CE uptake was significant with LDL oxidized for as little as 30 min and correlated with oxidative fragmentation of apoB. In contrast, LDL aggregation, LDL CE oxidation, and the enhancement of scavenger receptor-mediated LDL particle uptake required at least 3 h of oxidation. Selective CE uptake did not require expression of the LDL receptor (LDL-R) and was inhibited similarly by LDL oxidation in LDL-R(-/-) versus WT macrophages. Inhibition of selective uptake was also observed when cells were pretreated or cotreated with minimally oxidized LDL, indicating a direct inhibitory effect of this oxLDL on macrophages. Consistent with the effect on LDL CE uptake, minimal LDL oxidation almost completely prevented LDL-induced foam cell formation. These data demonstrate a novel inhibitory effect of mildly oxidized LDL that may reduce foam cell formation in atherosclerosis.
Highlights
Scavenger receptor-mediated uptake of oxidized LDL is thought to be the major mechanism of foam cell generation in atherosclerotic lesions
We previously demonstrated that selective cholesteryl ester (CE) uptake is a major pathway of cholesterol delivery to macrophages from native LDL [16]
The difference between [3H]CE uptake and 125 radionuclide (125I)-LDL uptake ((3H)(125I)) is defined as selective CE uptake, and indicates CE acquired by cells independent of LDL particle uptake
Summary
Scavenger receptor-mediated uptake of oxidized LDL (oxLDL) is thought to be the major mechanism of foam cell generation in atherosclerotic lesions. Inhibition of selective uptake was observed when cells were pretreated or cotreated with minimally oxidized LDL, indicating a direct inhibitory effect of this oxLDL on macrophages. Consistent with the effect on LDL CE uptake, minimal LDL oxidation almost completely prevented LDL-induced foam cell formation. Oxidized LDL inhibits macrophage selective cholesteryl ester uptake and native LDL-induced foam cell formation. It is widely believed that oxidation of LDL is necessary for the generation of lipid-loaded foam cells, a theory that is supported by the identification of oxLDL in atherosclerotic lesions [8] and the protective effect of antioxidants in animal models of atherosclerosis [9].
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