Acclimation to a High‐Salt Diet Is Sex Dependent

Author:

Gohar Eman Y.1ORCID,De Miguel Carmen1ORCID,Obi Ijeoma E.1,Daugherty Elizabeth M.1,Hyndman Kelly A.1,Becker Bryan K.1,Jin Chunhua1,Sedaka Randee1,Johnston Jermaine G.1,Liu Pengyuan2,Speed Joshua S.3,Mitchell Tanecia4ORCID,Kriegel Alison J.2,Pollock Jennifer S.1,Pollock David M.1ORCID

Affiliation:

1. Section of Cardio‐Renal Physiology & Medicine Division of Nephrology Department of Medicine University of Alabama at Birmingham AL

2. Department of Physiology Medical College of Wisconsin Milwaukee WI

3. Department of Physiology University of Mississippi Medical Center Jackson MS

4. Department of Urology University of Alabama at Birmingham AL

Abstract

Background Premenopausal women are less likely to develop hypertension and salt‐related complications than are men, yet the impact of sex on mechanisms regulating Na + homeostasis during dietary salt challenges is poorly defined. Here, we determined whether female rats have a more efficient capacity to acclimate to increased dietary salt intake challenge. Methods and Results Age‐matched male and female Sprague Dawley rats maintained on a normal‐salt (NS) diet (0.49% NaCl) were challenged with a 5‐day high‐salt diet (4.0% NaCl). We assessed serum, urinary, skin, and muscle electrolytes; total body water; and kidney Na + transporters during the NS and high‐salt diet phases. During the 5‐day high‐salt challenge, natriuresis increased more rapidly in females, whereas serum Na + and body water concentration increased only in males. To determine if females are primed to handle changes in dietary salt, we asked the question whether the renal endothelin‐1 natriuretic system is more active in female rats, compared with males. During the NS diet, female rats had a higher urinary endothelin‐1 excretion rate than males. Moreover, Ingenuity Pathway Analysis of RNA sequencing data identified the enrichment of endothelin signaling pathway transcripts in the inner medulla of kidneys from NS‐fed female rats compared with male counterparts. Notably, in human subjects who consumed an Na + ‐controlled diet (3314–3668 mg/day) for 3 days, women had a higher urinary endothelin‐1 excretion rate than men, consistent with our findings in NS‐fed rats. Conclusions These results suggest that female sex confers a greater ability to maintain Na + homeostasis during acclimation to dietary Na + challenges and indicate that the intrarenal endothelin‐1 natriuretic pathway is enhanced in women.

Publisher

Ovid Technologies (Wolters Kluwer Health)

Subject

Cardiology and Cardiovascular Medicine

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