Introduction: Current understanding of sodium (Na+) handling is based on studies done primarily in males. Contrary to the gradual increase in high salt (HS) induced natriuresis over 3-5 days in males, female Sprague Dawley (SD) rats have a robust natriuresis after 1 day of HS. Renal endothelin-1 (ET-1) signaling, through ET receptor A and B, is an important natriuretic pathway and was implicated in our previous dietary salt acclimation studies, however, the contribution of ET receptors to sex-differences in acclimation to dietary Na+ challenges has yet to be clarified. We hypothesized that ET receptors mediate the augmented natriuretic capacity of female rats in response to a HS diet.
Methods: To test our hypothesis, male and female SD rats were implanted with telemeters and randomly assigned to treatment with A-182086, a dual ETA and ETB receptor antagonist, or control. 24-h urine samples were collected and assessed for electrolytes and ET-1. Studies were performed on a normal salt (NS, 0.3% NaCl) diet and after challenging rats with HS (4% NaCl) diet for 1 day.
Results: We found that A-182086 increased blood pressure in male and female SD rats fed either diet. Importantly, A-182086 eliminated sex-differences in natriuresis on NS and HS. In particular, A-182086 promotes HS-induced natriuresis in male rats rather than attenuating the natriuretic capacity of females. Further, the sex-difference in urinary ET-1 excretion in NS-fed rats was eliminated by A-182086.
Conclusion: In conclusion, ET receptors are crucial for mediating sex-difference in the natriuretic capacity primarily through their actions in male rats.
Keywords: Endothelin receptor; Natriuresis; Sex differences.
Sodium balance is essential for the human body. Sodium retention in the body can cause an increase in blood pressure. Historical understanding of sodium balance is based on studies done mostly in male subjects. Recently, we showed that male and female rats acclimate to a high salt diet differently. Male rats take 3–5 days to increase sodium excretion while female rats increase sodium excretion after 1 day. Endothelin-1 which signals through two receptors, endothelin receptor subtype A and B, is important for controlling sodium excretion by the kidneys. There are known sex-differences in the ratio and function of endothelin receptors in the kidney. However, the role of endothelin receptors in salt handling during acclimation to increased salt intake is not clear. This study sought to identify whether blocking endothelin receptors eliminates the sex-difference in sodium excretion in response to a high salt diet. We treated male and female rats with a blocker for endothelin receptors and evaluated sodium handling by the kidney. Blockade of endothelin receptors increased sodium excretion in male rats fed a high salt diet; whereas sodium excretion in female rats was not affected by blocking endothelin receptors. These data indicate that ET receptors contribute to male–female differences in sodium handling during adjusting to an increased dietary salt.
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