Sasaki Hiroyuki, Ohtsu Teiji, Ikeda Yuko, Tsubosaka Miku, Shibata Shigenobu
Department of Physiology and Pharmacology, School of Advanced Science and Engineering, Waseda University , Shinjuku-ku, Tokyo , Japan.
Chronobiol Int. 2014 Nov;31(9):959-75. doi: 10.3109/07420528.2014.935785. Epub 2014 Jul 9.
In mice, obesity has been observed not only in those freely fed a high-fat diet (HFD) but also in those fed while physically inactive. In contrast, a HFD during physically active periods protects against obesity and the impairments in the circadian rhythm induced by free feeding of a HFD. Although exercise is known to be effective for obesity prevention and management, the optimal timing of exercise has not yet been determined. In the present experiments, we aimed to determine the best combination of daily timing of HFD consumption and exercise for the prevention of HFD-induced weight gain in mice. In this experiment, "morning" refers to the beginning of the active phase (the "morning" for nocturnal animals). Increases in body weight related to free feeding of a HFD was significantly reduced with 4 h of exercise during the late (evening) or middle (noon) active period compared to 4 h of exercise during the early (morning) active period or free access to exercise, which resulted in hours of exercise similar to that of morning exercise. These results suggested that eating in the morning or at noon followed by exercise in the evening could prevent weight gain more effectively than exercise in the morning followed by eating at noon or in the evening. The group fed a HFD for 4 h in the morning had lower body weight than the group fed a HFD for 4 h in the evening without exercise. The last group of experiments tested the hypothesis that there would be an interaction between mealtime and exercise time (i.e. time of day) versus order (i.e. which comes first) effects. We compared groups that exercised for 4 h at noon and were fed either in the morning or evening and groups that were fed for 4 h at noon and either exercised in the morning or evening. We found that the groups that were fed before exercise gained less body and fat weight and more skeletal muscle weight compared to the groups that exercised before eating. Corresponding to the body and fat weight changes, the respiratory exchange ratio (RER) was lower and energy expenditure was higher in the groups fed before exercise than in the groups fed after exercise, and these effects on energy metabolism were also observed in the early stage of HFD feeding before obesity. When obese mice fed a HFD for 12 weeks were exposed to a combination of feeding and exercise timing in an effort to reduce body weight, eating followed by exercise resulted in greater weight loss, similar to the experiments conducted to prevent weight gain. These results demonstrate that a combination of daily timing of eating and exercise may influence weight gain and that eating followed by exercise may be effective for minimizing increases in body and fat weight as well as maximizing increases in skeletal muscle weight.
在小鼠中,不仅在自由采食高脂饮食(HFD)的小鼠中观察到肥胖,在缺乏身体活动时喂食的小鼠中也观察到肥胖。相比之下,在身体活动期间给予高脂饮食可预防肥胖以及自由采食高脂饮食所引起的昼夜节律紊乱。尽管已知运动对预防和管理肥胖有效,但运动的最佳时间尚未确定。在本实验中,我们旨在确定每日高脂饮食摄入时间和运动的最佳组合,以预防高脂饮食诱导的小鼠体重增加。在本实验中,“早晨”指活动期开始时(对于夜行性动物而言的“早晨”)。与在活动期早期(早晨)运动4小时或自由运动相比,在活动期晚期(傍晚)或中期(中午)运动4小时可显著减少与自由采食高脂饮食相关的体重增加,自由运动的时长与晨练相似。这些结果表明,早晨或中午进食后傍晚运动比早晨运动后中午或傍晚进食能更有效地预防体重增加。早晨喂食高脂饮食4小时的组比傍晚喂食高脂饮食4小时且不运动的组体重更低。最后一组实验检验了用餐时间和运动时间(即一天中的时间)与顺序(即哪个在先)效应之间存在相互作用的假设。我们比较了中午运动4小时且在早晨或傍晚进食的组,以及中午进食4小时且在早晨或傍晚运动的组。我们发现,与运动前进食的组相比,进食前运动的组体重和脂肪增加较少,骨骼肌重量增加较多。与体重和脂肪重量变化相对应,运动前进食的组呼吸交换率(RER)较低,能量消耗较高,在肥胖前高脂饮食喂养的早期阶段也观察到了这些对能量代谢的影响。当喂食高脂饮食12周的肥胖小鼠接受进食和运动时间组合以减轻体重时,进食后运动导致体重减轻更多,这与为预防体重增加而进行的实验结果相似。这些结果表明,每日进食时间和运动的组合可能会影响体重增加,进食后运动可能对最小化体重和脂肪增加以及最大化骨骼肌重量增加有效。
