Physiological concentration of 17 beta-estradiol retards the progression of severe atherosclerosis induced by a high-cholesterol diet plus balloon catheter injury - Role of NO

The molecular mechanisms of the antiatherosclerotic effects of estrogen are not yet known. We evaluated the effects of 17 beta-estradiol (E-2) on high cholesterol diet- (HCD; standard diet and 1% cholesterol) and balloon inju ry-induced atherosclerosis in female New Zealand White rabbits. The abdomin al aortas of 40 oophorectomized (Groups 1 through 5) and 8 nonoophorectomiz ed (Group 6) rabbits were injured by balloon catheter, and the animals were then divided into the following groups and treated for 10 weeks: Group 1, standard diet; Group 2, standard diet plus a moderate dose of E-2 (100 mu g . kg(-1). d(-1)); Group 3, HCD; Group 4, HCD plus a moderate dose of E-2; Group 5, HCD plus a low dose of E-2 (20 mu g . kg(-1). d(-1)); and Group 6, HCD in nonoophorectomized rabbits. After the treatment phase, plasma E-2 w as increased up to 282.2+/-45.5 pg/mL in Group 2, 263.0+/-41.5 pg/mL in Gro up 4, 87.9+/-18.8 pg/mL in Group 5, and 45.6+/-7.3 pg/mL in Group 6. HCD-me diated increases in plasma lipid levels were not changed by E-2 treatment, whereas E-2 decreased the aortic intimal thickening in Group 2 animals comp ared with those in Group 1 and reduced atherosclerosis in the thoracic and abdominal aortas of Group 4, 5, and 6 rabbits compared with those in Group 3. E-2 restored the impaired abdominal aortic endothelium-dependent relaxat ion of balloon-injured and HCD-supplemented rabbits, and E-2 increased basa l nitric oxide (NO) release. The basal NO-releasing effect showed a signifi cant, inverse relation with the severity of atherosclerosis. Plasma E-2 con centration also showed a significant, inverse relation with atherosclerotic area. In conclusion, physiological concentrations of E-2 can retard the pr ogression of severe atherosclerosis and stabilize atheromas induced by HCD and balloon injury. The retardation may be partially mediated by endothelia l NO function in vessels treated with E-2.