Victoria L Nasci, Jean C Bopassa, Elena Mironova, Megan Rhoads, Ravneet Singh, Dennis P Buehler, David M Pollock, Oleh M Pochynyuk, James D Stockand, Eman Y Gohar
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Abstract
Hypertension prevalence is lower in women than in men. Enhanced renal sodium (Na+) handling in females has been implicated in sex differences in hypertension. Epithelial Na+ channel (ENaC) is a key contributor to Na+ homeostasis and is regulated by estrogen. Recent evidence suggests G protein-coupled estrogen receptor 1 (GPER1) evokes a female-specific natriuresis that involves endothelin-1 (ET-1). ET-1 has been shown to downregulate ENaC activity, but whether GPER1 regulates ENaC to modulate natriuresis is unknown. We tested the hypothesis that renal GPER1 functionally interacts with ENaC to promote natriuresis in a sex-specific manner. RNAscope confirmed coexpression of GPER1 and ENaC in rat renal tubules in a sex- and region-specific manner. Within the renal medulla, the number of ENaC/GPER1-positive tubules was greater in females than males. Renal medullary inhibition of ENaC or activation of GPER1 evoked comparable natriuresis in female rats. Electrophysiology revealed that pharmacological GPER1 activation downregulated ENaC activity, whereas genetic deletion of GPER1 from the principal cells of the collecting duct caused ENaC hyperactivity. The hyperactivity of ENaC caused by deletion of GPER1 in the principal cells was greater in female than male mice. RNAscope coexpression of aquaporin 2 (AQP2) and GPER1 confirmed the knockout (KO) of GPER1 from the principal cell (PC) in the kidney. Thus, renal GPER1 functionally interacts with ENaC in a sex-specific manner to promote natriuresis.NEW & NOTEWORTHY This study identified GPER1 as a sex-specific upstream regulator of ENaC. We found that GPER1 and ENaC were coexpressed in the rat renal tubules in a sex and region-specific manner. Activation of GPER1 inhibited ENaC activity in isolated mouse collecting ducts, whereas deletion of GPER1 from the principal cells caused ENaC hyperactivity to a greater extent in female mice. Our data suggest GPER1 functionally interacts with ENaC in a sex-specific manner to promote natriuresis.
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