Litcius/Paper detail

Loss of circadian gene<i>Bmal1</i>in the collecting duct lowers blood pressure in male, but not female, mice

Dingguo Zhang, Chunhua Jin, Ijeoma E. Obi, Megan K Rhoads, Reham H. Soliman, Randee Sedaka, J. Miller Allan, Binli Tao, Joshua S. Speed, Jennifer S. Pollock, David M. Pollock

2020American Journal of Physiology-Renal Physiology52 citationsDOIOpen Access PDF

Abstract

Kidney function follows a 24-h rhythm subject to regulation by circadian genes including the transcription factor Bmal1. A high-salt diet induces a phase shift in Bmal1 expression in the renal inner medulla that is dependent on endothelin type B (ET B ) receptors. Furthermore, ET B receptor-mediated natriuresis is sex dependent. Therefore, experiments tested the hypothesis that collecting duct Bmal1 regulates blood pressure in a sex-dependent manner. We generated a mouse model that lacks Bmal1 expression in the collecting duct, where ET B receptor abundance is highest. Male, but not female, collecting duct Bmal1 knockout (CDBmal1KO) mice had significantly lower 24-h mean arterial pressure (MAP) than flox controls (105 ± 2 vs. 112 ± 3 mmHg for male mice and 106 ± 1 vs. 108 ± 1 mmHg for female mice, by telemetry). After 6 days on a high-salt (4% NaCl) diet, MAP remained significantly lower in male CDBmal1KO mice than in male flox control mice (107 ± 2 vs. 113 ± 1 mmHg), with no significant differences between genotypes in female mice (108 ± 2 vs. 109 ± 1 mmHg). ET B receptor blockade for another 6 days increased MAP similarly in both male and female CDBmal1KO and flox control mice. However, MAP remained lower in male CDBmal1KO mice than in male flox control mice (124 ± 2 vs. 130 ± 2 mmHg). No significant differences were observed between female CDBmal1KO and flox mice during ET B blockade (130 ± 2 vs. 127 ± 2 mmHg). There were no significant genotype differences in amplitude or phase of MAP in either sex. These data suggest that collecting duct Bmal1 has no role in circadian MAP but plays an important role in overall blood pressure in male, but not female, mice.

Topics & Concepts

EndocrinologyInternal medicineCircadian rhythmBiologyKnockout mouseBlood pressureRenal medullaReceptorKidneyMean arterial pressureNatriuresisMedicineHeart rateBirth, Development, and HealthCircadian rhythm and melatoninSodium Intake and Health