Ruegsegger Gregory N, Toedebusch Ryan G, Braselton Joshua F, Roberts Christian K, Booth Frank W
Department of Biomedical Sciences, University of Missouri, Columbia, MO 65211, United States.
Department of Kinesiology, Occidental College, 1600 Campus Rd, Los Angeles, CA 90041, United States.
Physiol Behav. 2015 Dec 1;152(Pt A):47-55. doi: 10.1016/j.physbeh.2015.09.004. Epub 2015 Sep 11.
Metabolic disease risk is influenced by genetics and modifiable factors, such as physical activity and diet. Beginning at 6 weeks of age, rats selectively bred for high (HVR) versus low voluntary running distance (LVR) behaviors were housed in a complex design with or without voluntary running wheels being fed either a standard or Western (WD, 42% kcal from fat and added sucrose) diet for 8 weeks. Upon intervention completion, percent body fat, leptin, insulin, and mediobasal hypothalamic mRNAs related to appetite control were assessed. Wheel access led to differences in body weight, food intake, and serum leptin and insulin. Intriguingly, percent body fat, leptin, and insulin did not differ between HVR and LVR lines in response to the two levels of voluntary running, regardless of diet, after the 8 wk. experiment despite HVR eating more calories than LVR regardless of diet and voluntarily running 5-7 times further in wheels than LVR. In response to WD, we observed increases in Cart and Lepr mediobasal hypothalamic mRNA in HVR, but no differences in LVR. Npy mRNA was intrinsically greater in LVR than HVR, while wheel access led to greater Pomc and Cart mRNA in LVR versus HVR. These data suggest that despite greater consumption of WD, HVR animals respond similarly to WD as LVR as a result, in part, of their increased wheel running behavior. Furthermore, high physical activity in HVR may offset the deleterious effects of a WD on adiposity despite greater energy intake in this group.
代谢疾病风险受遗传因素和可改变因素影响,如身体活动和饮食。从6周龄开始,将选择性培育出的具有高(HVR)或低自愿跑步距离(LVR)行为的大鼠,以复杂设计饲养,有或没有自愿跑步轮,并给予标准饮食或西式饮食(WD,42%千卡来自脂肪并添加蔗糖),持续8周。干预完成后,评估体脂百分比、瘦素、胰岛素以及与食欲控制相关的下丘脑内侧基底部mRNA。有无跑步轮导致体重、食物摄入量、血清瘦素和胰岛素出现差异。有趣的是,在8周实验后,无论饮食如何,HVR和LVR品系在对两种自愿跑步水平的反应中,体脂百分比、瘦素和胰岛素并无差异,尽管无论饮食如何,HVR比LVR摄入更多卡路里,且在跑步轮中的自愿跑步距离比LVR远5 - 7倍。对WD的反应方面,我们观察到HVR下丘脑内侧基底部的Cart和Lepr mRNA增加,但LVR无差异。LVR的Npy mRNA本质上比HVR更高,而有无跑步轮导致LVR的Pomc和Cart mRNA比HVR更高。这些数据表明,尽管WD的摄入量更大,但HVR动物对WD的反应与LVR相似,部分原因是其增加的跑步行为。此外,尽管HVR组能量摄入更多,但该组较高的身体活动可能抵消了WD对肥胖的有害影响。
