Differences in Fluid, Electrolyte, and Energy Balance in C57BL/6J Mice (Mus musculus) in Metabolic Caging at Thermoneutral or Standard Room Temperatures.

Samuel Br Lawton, Connie C Grobe, John J Reho, Hershel Raff, Joseph D Thulin, Eric S Jensen, Colin Ml Burnett, Jeffrey L Segar, Justin L Grobe
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Abstract

The Guide for the Care and Use of Laboratory Animals recommends mice be pair or group housed and provided with nesting materials. These provisions support social interactions and are also critical for thermoregulatory behaviors such as huddling and burrowing. However, studies of fluid and electrolyte balance and digestive function may involve use of metabolic caging (MC) systems in which mice are housed individually on wire-mesh floors that permit quantitative collection of urine and feces. MC housing prevents mice from performing their typical huddling and burrowing behaviors. Housing in MC can cause weight loss and behavioral changes in rodents. Here, we tested the hypothesis that MC housing of mice at standard room temperature (SRT, 22 to 23 °C) exposes them to cold stress, which causes metabolic changes in the mice as compared with standard housing. We hypothesized that performing MC studies at a thermoneutral temperature (TNT, 30 °C) would minimize these changes. Fluid, electrolyte, and energy balance and body composition were assessed in male and female C57BL/6J mice housed at SRT or TNT in MC, static microisolation cages, or a multiplexed metabolic phenotyping system designed to mimic static microisolation cages (Promethion, Sable Systems International). In brief, as compared with MC housing at SRT, MC housing at TNT was associated with lower food intake and energy expenditure, absence of weight loss, and lower urine and fecal corticosterone levels. These results indicate that housing in MC at SRT causes cold stress that can be mitigated if MC studies are performed at TNT.

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C57BL/6J小鼠(Mus musculus)在中温或标准室温下代谢笼养过程中的体液、电解质和能量平衡差异。
实验动物饲养和使用指南》建议小鼠应成对或成群饲养,并提供筑巢材料。这些规定有助于小鼠的社会交往,对小鼠的体温调节行为(如蜷缩和钻洞)也至关重要。不过,对体液和电解质平衡以及消化功能的研究可能需要使用代谢笼(MC)系统,在该系统中,小鼠被单独饲养在铁丝网地板上,以便定量收集尿液和粪便。代谢笼饲养系统使小鼠无法进行典型的蜷缩和钻洞行为。MC饲养会导致啮齿动物体重减轻和行为改变。在此,我们测试了一个假设,即在标准室温(SRT,22 至 23 °C)下饲养 MC 会使小鼠面临冷应激,与标准饲养相比,冷应激会导致小鼠的新陈代谢发生变化。我们假设在恒温(TNT,30 °C)下进行 MC 研究将最大程度地减少这些变化。我们对在 SRT 或 TNT 温度下饲养的雌雄 C57BL/6J 小鼠的体液、电解质和能量平衡以及身体成分进行了评估,这些小鼠分别饲养在 MC、静态微隔离笼或模拟静态微隔离笼设计的多重代谢表型系统(Promethion,Sable Systems International)中。简而言之,与SRT的MC饲养相比,TNT的MC饲养与较低的食物摄入量和能量消耗、无体重下降以及较低的尿液和粪便皮质酮水平有关。这些结果表明,在SRT饲养MC会造成寒冷应激,如果在TNT进行MC研究,则可减轻这种应激。
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American Society of Laboratory Animal Practitioners Position Statement: Handling and Physical Restraint of Research Animals. American Society of Laboratory Animal Practitioners Position Statement: Definition of Animal Welfare. Effect of Novel High-fat Diet Feeding Methods on Food Wastage, Weight Gain, Hair Coat Grease Accumulation, and Scratching Behavior in C57BL/6NCrl Mice. Identification and Treatment of Fur Mites (Radfordia lemnina) in California Deer Mice (Peromyscus californicus) Using Selamectin. American Society of Laboratory Animal Practitioners Position Statement: Animal Care Principles.
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