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Estrogen receptor-α prevents right ventricular diastolic dysfunction and fibrosis in female rats.

Am J Physiol Heart Circ Physiol. 2020 Dec 01;319(6):H1459-H1473. doi:10.1152/ajpheart.00247.2020. Epub 2020 Oct 16
Tik-Chee Cheng 1 , Jennifer L Philip 2 , Diana M Tabima 1 , Santosh Kumari 3 , Bakhtiyor Yakubov 4 , Andrea L Frump 4 , Timothy A Hacker 5 , Alessandro Bellofiore 6 , Rongbo Li 7 , Xin Sun 7 , Kara N Goss 3 , Tim Lahm 8 , Naomi C Chesler 3
Tik-Chee Cheng 1 , Jennifer L Philip 2 , Diana M Tabima 1 , Santosh Kumari 3 , Bakhtiyor Yakubov 4 , Andrea L Frump 4 , Timothy A Hacker 5 , Alessandro Bellofiore 6 , Rongbo Li 7 , Xin Sun 7 , Kara N Goss 3 , Tim Lahm 8 , Naomi C Chesler 3
+ et al

[No authors listed]

Author information
  • 1 Department of Biomedical Engineering, University of Wisconsin-Madison, Madison, Wisconsin.
  • 2 Department of Surgery, University of Wisconsin-Madison, Madison, Wisconsin.
  • 3 Department of Medicine, University of Wisconsin-Madison, Madison, Wisconsin.
  • 4 Division of Pulmonary, Critical Care, Sleep and Occupational Medicine, Department of Medicine, Indiana University School of Medicine, Indianapolis, Indiana.
  • 5 Cardiovascular Research Center, University of Wisconsin-Madison, Madison, Wisconsin.
  • 6 Department of Biomedical, Chemical and Materials Engineering, San Jose State University, San Jose, California.
  • 7 Department of Pediatrics, University of California San Diego, La Jolla, California.
  • 8 Richard L. Roudebush Veterans Affairs Medical Center, Indianapolis, Indiana.

摘要

Although women are more susceptible to pulmonary arterial hypertension (PAH) than men, their right ventricular (RV) function is better preserved. Estrogen receptor-α (ERα) has been identified as a likely mediator for estrogen protection in the RV. However, the role of ERα in preserving RV function and remodeling during pressure overload remains poorly understood. We hypothesized that loss of functional ERα removes female protection from adverse remodeling and is permissive for the development of a maladapted RV phenotype. Male and female rats with a loss-of-function mutation in ERα (ERαMut) and wild-type (WT) littermates underwent RV pressure overload by pulmonary artery banding (PAB). At 10 wk post-PAB, WT and ERαMut demonstrated RV hypertrophy. Analysis of RV pressure waveforms demonstrated RV-pulmonary vascular uncoupling and diastolic dysfunction in female, but not male, ERαMut PAB rats. Similarly, female, but not male, ERαMut exhibited increased RV fibrosis, comprised primarily of thick collagen fibers. There was an increased protein expression ratio of TIMP metallopeptidase inhibitor 1 (Timp1) to matrix metalloproteinase 9 (Mmp9) in female ERαMut compared with WT PAB rats, suggesting less collagen degradation. RNA-sequencing in female WT and ERαMut RV revealed kallikrein-related peptidase 10 (Klk10) and Jun Proto-Oncogene (Jun) as possible mediators of female RV protection during PAB. In summary, ERα in females is protective against RV-pulmonary vascular uncoupling, diastolic dysfunction, and fibrosis in response to pressure overload. ERα appears to be dispensable for RV adaptation in males. ERα may be a mediator of superior RV adaptation in female patients with PAH.NEW & NOTEWORTHY Using a novel loss-of-function mutation in estrogen receptor-α (ERα), we demonstrate that female, but not male, ERα mutant rats display right ventricular (RV)-vascular uncoupling, diastolic dysfunction, and fibrosis following pressure overload, indicating a sex-dependent role of ERα in protecting against adverse RV remodeling. TIMP metallopeptidase inhibitor 1 (Timp1), matrix metalloproteinase 9 (Mmp9), kallikrein-related peptidase 10 (Klk10), and Jun Proto-Oncogene (Jun) were identified as potential mediators in ERα-regulated pathways in RV pressure overload.

KEYWORDS: adverse remodeling, estrogen receptor-α, pressure overload, right ventricle

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