Hormones and Vasoprotection

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Hypertension. 1999;33:170-176

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(Hypertension. 1999;33:170-176.)
© 1999 American Heart Association, Inc.

Arthur C. Corcoran Memorial Lecture

Hormones and Vasoprotection

Suzanne Oparil

From the Departments of Medicine and Physiology and Biophysics, University of Alabama at Birmingham, Vascular Biology and Hypertension Program, Division of Cardiovascular Disease, University of Alabama at Birmingham.

Correspondence to Suzanne Oparil, MD, 1034 Zeigler Research Bldg, 703 S 19th St, Birmingham, AL 35294-0007. E-mail soparil{at}uab.edu

Abstract

Abstract—There is a strong link between menopause and increasedcardiovascular disease incidence in women, and observationalstudies suggest that postmenopausal hormone replacement therapyreduces cardiovascular disease risk by about half. Observationalstudies suffer from important limitations, however, and theonly published prospective controlled trial of the effects of hormonereplacement therapy on cardiovascular outcomes, the Heart Estrogen-ProgestinReplacement Study (HERS), showed no net benefit of continuousestrogen plus synthetic progestin treatment in women with establishedcoronary disease. Fundamental mechanistic studies of the cellularand molecular events by which hormones protect (or fail to protect)blood vessels from damage are needed to define the role of postmenopausalhormone replacement therapy in cardiovascular disease prevention.Most studies suggest that estrogen inhibits the neointimal responseto acute injury in normal blood vessels, but this vasoprotectiveeffect was not seen in vessels with preexisting atherosclerosis.Studies from our laboratory in the rat carotid injury modelhave shown that estrogen inhibits neointima formation via effectson all 3 layers of the vascular wall, including inhibition ofmedial smooth muscle cell migration and proliferation, stimulationof regrowth of endothelium, and inhibition of adventitial cell migrationinto neointima. Our laboratory is currently using transduced(lacZ) syngeneic fibroblasts as `reporter' cells to delineatethe factors that stimulate migration of adventitial cells intoneointima after vascular injury and their modulation by estrogenand the other sex hormones. These fundamental studies will establishmore rational strategies for therapeutic intervention in vasculardiseases, including the basis for future gene therapy.

Key Words: hormones • gender • women • estrogen • progestin • fibroblast • muscle, smooth

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