住房温度引起的能量消耗差异会导致雌雄小鼠产生特定饮食诱导的代谢适应。
Difference in Housing Temperature-Induced Energy Expenditure Elicits Sex-Specific Diet-Induced Metabolic Adaptations in Mice.
机构信息
Department of Molecular and Integrative Physiology, University of Kansas Medical Center, Kansas City, Kansas, USA.
Department of Biostatistics, University of Kansas Medical Center, Kansas City, Kansas, USA.
出版信息
Obesity (Silver Spring). 2020 Oct;28(10):1922-1931. doi: 10.1002/oby.22925. Epub 2020 Aug 28.
OBJECTIVE
The aim of this study was to test whether increased energy expenditure (EE), independent of physical activity, reduces acute diet-induced weight gain through tighter coupling of energy intake to energy demand and enhanced metabolic adaptations.
METHODS
Indirect calorimetry and quantitative magnetic resonance imaging were used to assess energy metabolism and body composition during 7-day high-fat/high-sucrose (HFHS) feeding in male and female mice housed at divergent temperatures (20°C vs. 30°C).
RESULTS
As previously observed, 30°C housing resulted in lower total EE and energy intake compared with 20°C mice regardless of sex. Interestingly, housing temperature did not impact HFHS-induced weight gain in females, whereas 30°C male mice gained more weight than 20°C males. Energy intake coupling to EE during HFHS feeding was greater in 20°C versus 30°C housing, with females greater at both temperatures. Fat mass gain was greater in 30°C mice compared with 20°C mice, whereas females gained less fat mass than males. Strikingly, female 20°C mice gained considerably more fat-free mass than 30°C mice. Reduced fat mass gain was associated with greater metabolic flexibility to HFHS, whereas fat-free mass gain was associated with diet-induced adaptive thermogenesis.
CONCLUSIONS
These data reveal that EE and sex interact to impact energy homeostasis and metabolic adaptation to acute HFHS feeding, altering weight gain and body composition change.
目的
本研究旨在测试能量消耗的增加(EE)是否通过更紧密地将能量摄入与能量需求相耦合以及增强代谢适应来减少急性饮食诱导的体重增加,而不考虑体力活动。
方法
在雄性和雌性小鼠分别处于不同温度(20°C 与 30°C)的环境中进行为期 7 天的高脂肪/高蔗糖(HFHS)喂养期间,使用间接测热法和定量磁共振成像来评估能量代谢和身体成分。
结果
正如之前观察到的那样,无论性别如何,30°C 的环境都会导致总 EE 和能量摄入低于 20°C 的小鼠。有趣的是,环境温度并不影响 HFHS 诱导的雌性体重增加,而 30°C 的雄性小鼠比 20°C 的雄性小鼠增加了更多的体重。HFHS 喂养期间能量摄入与 EE 的耦合在 20°C 比 30°C 的环境中更大,而雌性在两种温度下都更大。与 20°C 的小鼠相比,30°C 的小鼠脂肪量增加更多,而雌性的脂肪量比雄性少。值得注意的是,与 30°C 的小鼠相比,20°C 的雌性小鼠增加了相当多的无脂肪量。脂肪量减少与 HFHS 的代谢灵活性更大有关,而无脂肪量的增加与饮食诱导的适应性生热有关。
结论
这些数据表明,EE 和性别相互作用,影响能量平衡和对急性 HFHS 喂养的代谢适应,改变体重增加和身体成分变化。
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