Role of estrogen in diastolic dysfunction

  • Zhuo Zhao
    Department of Cardiology, Jinan Central Hospital, Affiliated with Shandong University, Jinan, China;
  • Hao Wang
    Department of Anesthesiology, Wake Forest School of Medicine, Winston-Salem, North Carolina;
  • Jewell A. Jessup
    Department of Anesthesiology, Wake Forest School of Medicine, Winston-Salem, North Carolina;
  • Sarah H. Lindsey
    Department of Pharmacology, Tulane University School of Medicine, New Orleans, Louisiana;
  • Mark C. Chappell
    Hypertension and Vascular Disease Center, Wake Forest School of Medicine, Winston-Salem, North Carolina; and
  • Leanne Groban
    Department of Anesthesiology, Wake Forest School of Medicine, Winston-Salem, North Carolina;

書誌事項

公開日
2014-03-01
DOI
  • 10.1152/ajpheart.00859.2013
公開者
American Physiological Society

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説明

<jats:p>The prevalence of left ventricular diastolic dysfunction (LVDD) sharply increases in women after menopause and may lead to heart failure. While evidence suggests that estrogens protect the premenopausal heart from hypertension and ventricular remodeling, the specific mechanisms involved remain elusive. Moreover, whether there is a protective role of estrogens against cardiovascular disease, and specifically LVDD, continues to be controversial. Clinical and basic science have implicated activation of the renin-angiotensin-aldosterone system (RAAS), linked to the loss of ovarian estrogens, in the pathogenesis of postmenopausal diastolic dysfunction. As a consequence of increased tissue ANG II and low estrogen, a maladaptive nitric oxide synthase (NOS) system produces ROS that contribute to female sex-specific hypertensive heart disease. Recent insights from rodent models that mimic the cardiac phenotype of an estrogen-insufficient or -deficient woman (e.g., premature ovarian failure or postmenopausal), including the ovariectomized congenic mRen2.Lewis female rat, provide evidence showing that estrogen modulates the tissue RAAS and NOS system and related intracellular signaling pathways, in part via the membrane G protein-coupled receptor 30 (GPR30; also called G protein-coupled estrogen receptor 1). Complementing the cardiovascular research in this field, the echocardiographic correlates of LVDD as well as inherent limitations to its use in preclinical rodent studies will be briefly presented. Understanding the roles of estrogen and GPR30, their interactions with the local RAAS and NOS system, and the relationship of each of these to LVDD is necessary to identify new therapeutic targets and alternative treatments for diastolic heart failure that achieve the cardiovascular benefits of estrogen replacement without its side effects and contraindications.</jats:p>

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