Social isolation increases metabolic rate in the transition of light- to dark- phase and advances Rev-erb-α expression in brown adipose tissue to regulate daily rhythm of core body temperature in mice

Paola Fernandes , Hellen Nunes , Tamires Amorim Marinho , Pietra Souza Barsanele , Maria Nathália Moraes , Maristela de Oliveira Poletini
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Abstract

Mammals use social thermoregulation to maintain the core body temperature (Tc) at a lower energy cost. Brown adipose tissue (BAT) plays a crucial role in thermoregulation. This study tested the hypothesis that social isolation induces alterations in thermogenesis and metabolism to maintain the rhythm of Tc throughout the day. Adult male mice (C57BLJ/6) were maintained in groups of 4–5 (group-housed) or isolated (single-housed) for 28 days. Telemetric probes recorded spontaneous locomotor activity (SLA) and Tc to analyze SLA and Tc daily rhythms. Body weight was measured weekly. VO2 consumption was analyzed at zeitgeber time (ZT) 1–3 (beginning of light phase) or ZT10–14 (beginning of dark phase). The expression of thermogenic-related and clock genes in the BAT occurred at ZT2, ZT8, ZT14, and ZT20. The β3 adrenergic agonist CL-316,243 was i.p. injected in the group- or single-housed mice. Social isolation increased the amplitude of Tc rhythm but decreased the amplitude of SLA oscillation. Nevertheless, in single-housed mice, the circadian peak of Tc and SLA was unaltered, with reduced body weight gain, increased VO2 consumption, and BAT Ucp1 expression at ZT14. Isolation advanced the BAT Rev-erb-ɑ peak of expression and phased-shift the peak of expression in BAT Bmal1, while it abolished the daily BAT Per2 oscillation. Isolation also abolished the BAT Ucp1 and hormone-sensitive lipase (Hsl) expression induced by stimulation of the β3ADR, but it increased Rev-erb-ɑ and Pgc1α. Thus, alterations in Ucp1, Reverb-α, Bmal1, and Per2 daily expression may favor an increased metabolic rate at the beginning of the dark, which, in turn, contributes to maintaining the daily Tc rhythm at the expense of reduced body weight gain in isolated mice. In addition, at least at the transcription level, the response of BAT from isolated mice to adrenergic agonist seems to be via a non-canonical mechanism involving Rev-erb-α and Pgc1α.

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社会隔离提高小鼠明暗相间的代谢速率,促进褐色脂肪组织中rev - erbb -α的表达,调节小鼠核心体温的日常节律
哺乳动物通过群居性体温调节,以较低的能量消耗来维持核心体温。棕色脂肪组织(BAT)在体温调节中起着至关重要的作用。这项研究验证了社会隔离诱导产热和代谢改变以维持全天Tc节奏的假设。将成年雄性小鼠(C57BLJ/6)分为4 ~ 5组(群养)和单独(单养)饲养28 d。遥测探头记录自发运动活动(SLA)和自发运动活动(Tc),分析自发运动活动(SLA)和自发运动活动(Tc)的日常节律。每周测量体重。在zeitgeber时间(ZT) 1-3(光相开始)或ZT10-14(暗相开始)分析VO2消耗。BAT中产热相关基因和时钟基因的表达发生在ZT2、ZT8、ZT14和ZT20。以β3肾上腺素能激动剂CL-316,243灌胃给药。社会隔离增加了Tc节律的振幅,但降低了SLA振荡的振幅。然而,在单房小鼠中,Tc和SLA的昼夜节律峰值没有改变,体重增加减少,VO2消耗增加,BAT Ucp1表达在ZT14。分离使BAT rev - erbb - j表达峰提前,BAT Bmal1表达峰相移,消除了BAT Per2的日常振荡。β3ADR刺激诱导的BAT、Ucp1和激素敏感脂肪酶(Hsl)表达均被抑制,rev - erbb - α和Pgc1α表达增加。因此,Ucp1、Reverb-α、Bmal1和Per2每日表达的改变可能有利于黑暗开始时代谢率的增加,这反过来又有助于以减少体重增加为代价维持每日Tc节律。此外,至少在转录水平上,离体小鼠的BAT对肾上腺素能激动剂的反应似乎是通过一种涉及Rev-erb-α和pgc1 -α的非规范机制。
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