Adrenal circadian clock protein BMAL1 regulates aldosterone and renal excretory function in a sex- and time-dependent manner

Abstract

BMAL1 is a core circadian clock protein that is important for circadian rhythms of physiological function, as well as maintaining physiological homeostasis, including aspects of kidney function. Global Bmal1 knockout (KO) male mice exhibit loss of diurnal rhythm of renal sodium (Na) excretion in response to a normal or high salt diet. However, renal Na excretion rhythm remained intact in kidney-specific Bmal1 KO male mice. The adrenal gland synthesizes hormones, such as aldosterone, which influence renal electrolyte handling. The role of adrenal BMAL1 in the regulation of renal function remains unknown. The study objective was to test the hypothesis that adrenal BMAL1 is required for normal rhythms of aldosterone and renal Na handling. Male and female adrenal-specific aldosterone synthase Cre positive (AS) Bmal1 KO and littermate Cre negative, floxed control mice ( n=5-9/genotype) were acclimated to metabolic cages for 3 days then samples were collected for three days with mice on a normal salt diet followed by 7 days on a low salt diet to challenge the mice to stimulate aldosterone production. Twelve-hour food intake was measured, and urine samples were collected to measure night/day patterns in renal Na balance. Urinary aldosterone excretion was measured by ELISA. Both day and night urinary aldosterone excretion were increased following a low salt diet in control and KO male mice (ANOVA main effect of diet, p<0.05). Male AS Bmal1 KO mice displayed a significant increase in day urinary aldosterone excretion following a normal and low salt diet (ANOVA main effect of genotype, p=0.0230), with a trend for an increase in night urinary aldosterone excretion ( p=0.0571). Interestingly, these genotype effects were not seen in female AS Bmal1 KO mice. Urinary aldosterone was increased following a low salt diet in female mice, but only during the nighttime in control and KO mice ( p=0.0205). Sex differences were also observed in renal Na balance, where Na balance was more positive during the day in male, but not female, AS Bmal1 KO vs. control mice (ANOVA main effect of genotype, p=0.0282). Together, these data suggest adrenal BMAL1 is required for normal rhythms of aldosterone and renal Na balance in a sex-dependent manner. Future work will investigate whether the changes in aldosterone contribute to changes in renal Na balance. This work was supported by the American Heart Association (Postdoctoral FellowshipP0240441 to H.C.; Established Investigator Award 19EIA34660135 to M.G), theRobert and Mary Cade Professorship in Physiology (to M.G.) and the NIH(F32DK121424 to G.R.C.). This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.