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      Ethinylestradiol does not enhance the expression of nitric oxide synthase in bovine endothelial cells but increases the release of bioactive nitric oxide by inhibiting superoxide anion production.

      Proceedings of the National Academy of Sciences of the United States of America
      Animals, Aorta, Blotting, Northern, Blotting, Western, Cattle, Cells, Cultured, Endothelium, Vascular, drug effects, metabolism, Ethinyl Estradiol, pharmacology, Gene Expression, Kinetics, Nitric Oxide, Nitric Oxide Synthase, biosynthesis, RNA, Messenger, Superoxides, antagonists & inhibitors, Time Factors

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          Abstract

          Estradiol is known to exert a protective effect against the development of atherosclerosis, but the mechanism by which this protection is mediated is unclear. Since animal studies strongly suggest that production of endothelium-derived relaxing factor is enhanced by estradiol, we have examined the effect of estrogens on nitric oxide (NO) synthase (NOS) activity, protein, and mRNA in cultured bovine aortic endothelial cells. In reporter cells rich in guanylate cyclase, it has been observed that long-term treatment (> or = 24 hr) with ethinylestradiol (EE2) dose-dependently increased guanylate cyclase-activating factor activity in the conditioned medium of endothelial cells. However, conversion of L-[14C]arginine to L-[14C]citrulline by endothelial cell homogenate or quantification of nitrite and nitrate released by intact cells in the conditioned medium did not reveal any change in NOS activity induced by EE2 treatment. Similarly, Western and Northern blot analyses did not reveal any change in the endothelial NOS protein and mRNA content in response to EE2. However, EE2 dose- and time-dependently decreased superoxide anion production in the conditioned medium of endothelial cells with an EC50 value (0.1 nM) close to that which increased guanylate cyclase-activating factor activity (0.5 nM). Both of these effects were completely prevented by the antiestrogens tamoxifen and RU54876. Thus, endothelium exposure to estrogens appears to induce a receptor-mediated antioxidant effect that enhances the biological activity of endothelium-derived NO. These effects could account at least in part for the vascular protective properties of these hormones.

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