Journal
JOURNAL OF CARDIOVASCULAR TRANSLATIONAL RESEARCH
Volume 2, Issue 3, Pages 289-299Publisher
SPRINGER
DOI: 10.1007/s12265-009-9103-z
Keywords
Estrogen; Vascular; Hormone; Lipid; Atherosclerosis
Funding
- NIH [K01-HL04142, HL55667]
- Frances Lazda Endowed Chair in Women's Cardiovascular Medicine
- Nora Eccles Treadwell Foundation
- NATIONAL HEART, LUNG, AND BLOOD INSTITUTE [R01HL055667, K01HL004142] Funding Source: NIH RePORTER
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Estrogen is atheroprotective and a high-affinity ligand for both known estrogen receptors, ER alpha and ER beta. However, the role of the ER alpha in early-stage atherosclerosis has not been directly investigated and is incompletely understood. ER alpha-deficient (ER alpha-/-) and wild-type (ER alpha+/+) female mice consuming an atherogenic diet were studied concurrent with estrogen replacement to distinguish the actions of 17 beta-estradiol (E-2) from those of ER alpha on the development of early atherosclerotic lesions. Mice were ovariectomized and implanted with subcutaneous slow-release pellets designed to deliver 6 or 8 mu g/day of exogenous 17 beta-estradiol (E-2) for a period of up to 4 months. Ovariectomized mice (OVX) with placebo pellets (E-2-deficient controls) were compared to mice with endogenous E-2 (intact ovaries) and exogenous E-2. Aortas were analyzed for lesion area, number, and distribution. Lipid and hormone levels were also determined. Compared to OVX, early lesion development was significantly (p<0.001) attenuated by E-2 with 55-64% reduction in lesion area by endogenous E-2 and >90% reduction by exogenous E-2. Compared to OVX, a decline in lesion number (2- to 4-fold) and lesser predilection (similar to 4-fold) of lesion formation in the proximal aorta also occurred with E-2. Lesion size, development, number, and distribution inversely correlated with circulating plasma E-2 levels. However, atheroprotection was independent of ER alpha status, and E-2 atheroprotection in both genotypes was not explained by changes in plasma lipid levels (total cholesterol, triglyceride, and high-density lipoprotein cholesterol). The ER alpha is not essential for endogenous/exogenous E-2-mediated protection against early-stage atherosclerosis. These observations have potentially significant implications for understanding the molecular and cellular mechanisms and timing of estrogen action in different estrogen receptor (ER) deletion murine models of atherosclerosis, as well as implications to human studies of ER polymorphisms and lipid metabolism. Our findings may contribute to future improved clinical decision-making concerning the use of hormone therapy.
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