Ascorbic acid enhances 17 beta-estradiol-mediated inhibition of oxidized low density lipoprotein formation.

Postmenopausal women who use estrogen appear to be protected from coronary heart disease (CHD). Studies have demonstrated that estrogen can lower low-density lipoprotein (LDL) levels and the antioxidant activity of 17 beta-estradiol can prevent the oxidation of this LDL. Ascorbic acid is regarded as a major hydrophylic antioxidant, however, its impact on the prevention of CHD has yet to be clearly demonstrated. Modified low density lipoprotein (LDL(-)) is an important marker of LDL oxidation in vivo, since it contributes to the oxidative susceptibility of low density lipoprotein, and at physiological levels displays pro-inflammatory and cytotoxic properties. Previously we showed that women taking estrogen replacement therapy have lower LDL(-) levels along with lower predisposition of the LDL to oxidize. In this study, we evaluated the potential action of 17 beta-estradiol (E(2)) in combination with ascorbic acid (AA) measured on the basis of LDL oxidative susceptibility in vitro and in the presence of cultured cells. High concentrations of E(2) were able to inhibit LDL oxidation, whereas in the presence of ascorbic acid nano- to picomolar levels of E(2) were sufficient to suppress LDL oxidation (P<0.05). Preconditioning male aortic endothelial cells (RAEC) with 5 ng/ml of E(2) (E(2)RAEC) reduced the formation of LDL(-) (P<0.005), and a more extensive inhibition was found in the presence of AA (P<0.0001). Interestingly, E(2) enhanced the uptake of LDL in the absence or presence of AA, however, this was not seen for the uptake of LDL(-). These results provide the first evidence that ascorbic acid can enhance the antioxidant effect of E(2) by preventing LDL oxidation by copper ions or cells. The cytoprotective and antiatherogenic effect of E(2) appears to involve a reduction in the extent of oxidized LDL formation and uptake. The enhanced activity of E(2) in the presence of ascorbate indicates that the antioxidant and antiatherosclerosis activity of E(2) may occur at concentrations within the physiological range.