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Evidence for G-Protein-Coupled Estrogen Receptor as a Pronatriuretic Factor.
Gohar, Eman Y; Daugherty, Elizabeth M; Aceves, Jeffrey O; Sedaka, Randee; Obi, Ijeoma E; Allan, J Miller; Soliman, Reham H; Jin, Chunhua; De Miguel, Carmen; Lindsey, Sarah H; Pollock, Jennifer S; Pollock, David M.
Afiliação
  • Gohar EY; Division of Nephrology Department of Medicine University of Alabama at Birmingham AL.
  • Daugherty EM; Division of Nephrology Department of Medicine University of Alabama at Birmingham AL.
  • Aceves JO; Division of Nephrology Department of Medicine University of Alabama at Birmingham AL.
  • Sedaka R; Division of Nephrology Department of Medicine University of Alabama at Birmingham AL.
  • Obi IE; Division of Nephrology Department of Medicine University of Alabama at Birmingham AL.
  • Allan JM; Division of Nephrology Department of Medicine University of Alabama at Birmingham AL.
  • Soliman RH; Division of Nephrology Department of Medicine University of Alabama at Birmingham AL.
  • Jin C; Division of Nephrology Department of Medicine University of Alabama at Birmingham AL.
  • De Miguel C; Division of Nephrology Department of Medicine University of Alabama at Birmingham AL.
  • Lindsey SH; Department of Pharmacology School of Medicine Tulane University New Orleans LA.
  • Pollock JS; Division of Nephrology Department of Medicine University of Alabama at Birmingham AL.
  • Pollock DM; Division of Nephrology Department of Medicine University of Alabama at Birmingham AL.
J Am Heart Assoc ; 9(10): e015110, 2020 05 18.
Article em En | MEDLINE | ID: mdl-32390531
Background The novel estrogen receptor, G-protein-coupled estrogen receptor (GPER), is responsible for rapid estrogen signaling. GPER activation elicits cardiovascular and nephroprotective effects against salt-induced complications, yet there is no direct evidence for GPER control of renal Na+ handling. We hypothesized that GPER activation in the renal medulla facilitates Na+ excretion. Methods and Results Herein, we show that infusion of the GPER agonist, G1, to the renal medulla increased Na+ excretion in female Sprague Dawley rats, but not male rats. We found that GPER mRNA expression and protein abundance were markedly higher in outer medullary tissues from females relative to males. Blockade of GPER in the renal medulla attenuated Na+ excretion in females. Given that medullary endothelin 1 is a well-established natriuretic factor that is regulated by sex and sex steroids, we hypothesized that GPER activation promotes natriuresis via an endothelin 1-dependent pathway. To test this mechanism, we determined the effect of medullary infusion of G1 after blockade of endothelin receptors. Dual endothelin receptor subtype A and endothelin receptor subtype B antagonism attenuated G1-induced natriuresis in females. Unlike males, female mice with genetic deletion of GPER had reduced endothelin 1, endothelin receptor subtype A, and endothelin receptor subtype B mRNA expression compared with wild-type controls. More important, we found that systemic GPER activation ameliorates the increase in mean arterial pressure induced by ovariectomy. Conclusions Our data uncover a novel role for renal medullary GPER in promoting Na+ excretion via an endothelin 1-dependent pathway in female rats, but not in males. These results highlight GPER as a potential therapeutic target for salt-sensitive hypertension in postmenopausal women.
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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Limite: Animals Idioma: En Ano de publicação: 2020 Tipo de documento: Article

Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Limite: Animals Idioma: En Ano de publicação: 2020 Tipo de documento: Article