Estradiol modulation of behavioral and physiological body fluid control during repeated dietary sodium deprivation

The low salt diet is a first line treatment for hypertension, but it is a difficult diet to maintain. As a result, patients may alternate between periods of high and low salt intake, the effects of which are unclear. Importantly, blood pressure increases in women after menopause, suggesting that est...

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Published in:Physiology & behavior 2024-01, Vol.273, p.114400-114400, Article 114400
Main Authors: Ehresman, Emily, Curtis, Kathleen
Format: Article
Language:English
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Summary:The low salt diet is a first line treatment for hypertension, but it is a difficult diet to maintain. As a result, patients may alternate between periods of high and low salt intake, the effects of which are unclear. Importantly, blood pressure increases in women after menopause, suggesting that estrogen plays a role in preventing hypertension. At present, however, it is unknown if the behavioral and physiological impact of alternating episodes on the low salt diet may be altered by the presence of estrogen. Our goals were to assess salt intake and body fluid hormones with repeated dietary sodium deprivations. Using ovariectomized rats with (EB) and without (OIL) estrogen treatment, we subjected rats to one or two dietary sodium deprivations using low salt laboratory chow. 0.5 M NaCl and water intakes were recorded after each period of regular chow or deprivation. After deprivation, rats were sacrificed, and trunk blood was collected for analysis of vasopressin, norepinephrine, epinephrine, and aldosterone levels. Plasma sodium concentration, plasma protein concentration, body weight, and uterine weight were also measured. There was no difference in the salt intakes of OIL- or EB-treated rats after one or two dietary sodium deprivations. However, EB-treated rats drank a less concentrated solution overall, suggesting less overcompensation after dietary sodium deprivation. Additionally, after a single episode of dietary sodium deprivation, EB-treated rats' consumption remained elevated above baseline even after returning to regular laboratory chow. These behavioral differences were not explained by alterations in vasopressin, norepinephrine, epinephrine, or aldosterone. Plasma sodium and plasma protein concentrations also did not show alterations related to the change in behavior. Further research is necessary to determine the mechanism behind these changes in intake in EB-treated rats, which may ultimately be clinically relevant for both pre- and postmenopausal women on the low salt diet.
ISSN:0031-9384
1873-507X
DOI:10.1016/j.physbeh.2023.114400