Sex differences in the adrenal circadian clock: a role for BMAL1 in the regulation of urinary aldosterone excretion and renal electrolyte balance in mice.

Hannah M Costello, Sophia A Eikenberry, Kit-Yan Cheng, Bryanna Broderick, Advay S Joshi, Gianna R Scott, Annalisse McKee, Victor M Mendez, Lauren G Douma, G Ryan Crislip, Michelle L Gumz
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Abstract

Brain and muscle ARNT-Like 1 (BMAL1) is a circadian clock transcription factor that regulates physiological functions. Male adrenal-specific Bmal1 (ASCre/+::Bmal1) KO mice displayed blunted serum corticosterone rhythms, altered blood pressure rhythm, and altered timing of eating, but there is a lack of knowledge in females. This study investigates the role of adrenal BMAL1 in renal electrolyte handling and urinary aldosterone levels in response to low salt in male and female mice. Mice were placed in metabolic cages to measure 12-h urinary aldosterone after a standard diet and 7 days low-salt diet, as well as daily body weight, 12-h food and water intake, and renal sodium and potassium balance. Adrenal glands and kidneys were collected at ZT0 or ZT12 to measure the expression of aldosterone synthesis genes and clock genes. Compared with littermate controls, ASCre/+::Bmal1 KO male and female mice displayed increased urinary aldosterone in response to a low-salt diet, although mRNA expression of aldosterone synthesis genes was decreased. Timing of food intake was altered in ASCre/+::Bmal1 KO male and female mice, with a blunted night/day ratio. ASCre/+::Bmal1 KO female mice displayed decreases in renal sodium excretion in response to low salt, but both male and female KO mice had changes in sodium balance that were time-of-day-dependent. In addition, sex differences were found in adrenal and kidney clock gene expression. Notably, this study highlights sex differences in clock gene expression that could contribute to sex differences in physiological functions.NEW & NOTEWORTHY Our findings highlight the importance of sex as well as time-of-day in understanding the role of the circadian clock in the regulation of homeostasis. Time-of-day is a key biological variable that is often ignored in research, particularly in preclinical rodent studies. Our findings demonstrate important differences in several measures at 6 AM compared with 6 PM. Consideration of time-of-day is critical for the translation of findings in nocturnal rodent physiology to diurnal human physiology.

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肾上腺昼夜节律时钟的性别差异:BMAL1在调节小鼠尿醛固酮排泄和肾电解质平衡中的作用
脑和肌肉ARNT-Like 1(BMAL1)是一种调节生理功能的昼夜节律钟转录因子。雄性肾上腺特异性 Bmal1(ASCre/+::Bmal1)KO 小鼠表现出血清皮质酮节律减弱、血压节律改变和进食时间改变,但对雌性缺乏了解。本研究调查了肾上腺 BMAL1 在雌雄小鼠肾电解质处理和尿醛固酮水平对低盐反应中的作用。将小鼠置于代谢笼中,测量标准饮食和 7 天低盐饮食后 12 小时尿醛固酮水平,以及每日体重、12 小时食物和水摄入量、肾脏钠和钾平衡。在ZT0或ZT12收集肾上腺和肾脏,测量醛固酮合成基因和时钟基因的表达。与同窝对照组相比,ASCre/+::Bmal1 KO雄性和雌性小鼠对低盐饮食的反应是尿醛固酮增加,尽管醛固酮合成基因的mRNA表达量减少。ASCre/+::Bmal1 KO 雄性和雌性小鼠的进食时间发生了改变,夜/昼比例降低。ASCre/+::Bmal1 KO雌性小鼠对低盐的反应是肾脏排钠量减少,但雄性和雌性KO小鼠的钠平衡变化都与时间有关。此外,肾上腺和肾脏时钟基因表达也存在性别差异。值得注意的是,这项研究强调了时钟基因表达的性别差异,而这种差异可能会导致生理功能的性别差异。
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