Objective: Endothelial cell (EC) migration is essential for healing areas of arterial injury and angioplasty sites. Iron or copper-oxidized low-density lipoprotein (oxLDL(Cu)) inhibits EC migration in vitro, but the effect of physiologically relevant monocyte/macrophage-oxidized LDL (oxLDL(cell)) is unknown. We postulated that oxLDL(cell) would inhibit EC migration and that this inhibition would be reversed by antioxidants.
Methods: The effect of oxLDL(Cu) and oxLDL(cell) on EC migration was studied by using a razor scrape assay, and migration was assessed after 24 hours. In addition, ECs were incubated with various antioxidants, including butylated hydroxytoluene (BHT), probucol, or alpha-tocopherol, for 1 hour prior to initiation of the scrape assay and application of oxLDL.
Results: Both oxLDL(Cu) and oxLDL(cell) inhibited migration. The antioxidants did not alter the antimigratory activity of oxLDL(Cu), but alpha-tocopherol preserved EC migration in the presence of oxLDL(cell). The lack of effect of BHT or probucol suggested that the effect of alpha-tocopherol resided not in its antioxidant activity but in its membrane-stabilizing properties. To test this theory, the effect of oxLDL and alpha-tocopherol on relative cell membrane fluidity was assessed by fluorescence recovery after photobleaching. Both oxLDL(Cu) and oxLDL(cell) increased relative membrane fluidity. Preincubation with alpha-tocopherol inhibited the increase in membrane fluidity of ECs incubated in oxLDL(cell) but not in oxLDL(Cu).
Conclusions: These studies show that alpha-tocopherol preserves EC migration in oxLDL(cell) and hastens restoration of the endothelial monolayer after injury by inhibiting changes in membrane integrity caused by oxLDL.
Clinical relevance: Recent studies find that vitamin E is not efficacious in the secondary prevention of cardiovascular events, perhaps because vitamin E does not efficiently block oxidation pathways known to be operative in atherosclerotic arteries. "Non-antioxidant" properties of vitamin E, however, could be important in the primary prevention of atherosclerosis and its complications. Our in vitro studies show that alpha-tocopherol can preserve endothelial migration in the presence of cell-oxidized LDL. This effect might improve the healing of endothelial injuries at sites of arterial repair or angioplasties, especially in lipid-laden arterial walls.