Blaisdell Aaron P, Lau Yan Lam Matthew, Telminova Ekatherina, Lim Hwee Cheei, Fan Boyang, Fast Cynthia D, Garlick Dennis, Pendergrass David C
Department of Psychology, UCLA, United States.
Department of Psychology, UCLA, United States.
Physiol Behav. 2014 Apr 10;128:220-5. doi: 10.1016/j.physbeh.2014.02.025. Epub 2014 Feb 16.
Purified high-fat diet (HFD) feeding causes deleterious metabolic and cognitive effects when compared with unrefined low-fat diets in rodent models. These effects are often attributed to the diet's high content of fat, while less attention has been paid to other mechanisms associated with the diet's highly refined state. Although the effects of HFD feeding on cognition have been explored, little is known about the impact of refined vs. unrefined food on cognition. We tested the hypothesis that a refined low-fat diet (LFD) increases body weight and adversely affects cognition relative to an unrefined diet.
Rats were allowed ad libitum access to unrefined rodent chow (CON, Lab Diets 5001) or a purified low-fat diet (REF, Research Diets D12450B) for 6 months, and body weight and performance on an instrumental lever pressing task were recorded.
After six months on their respective diets, group REF gained significantly more weight than group CON. REF rats made significantly fewer lever presses and exhibited dramatically lower breaking points than CON rats for sucrose and water reinforcement, indicating a chronic reduction of motivation for instrumental performance. Switching the rats' diet for 9 days had no effect on these measures.
Diet-induced obesity produces a substantial deficit in motivated behavior in rats, independent of dietary fat content. This holds implications for an association between obesity and motivation. Specifically, behavioral traits comorbid with obesity, such as depression and fatigue, may be effects of obesity rather than contributing causes. To the degree that refined foods contribute to obesity, as demonstrated in our study, they may play a significant contributing role to other behavioral and cognitive disorders.
与未精制的低脂饮食相比,在啮齿动物模型中,喂食纯化的高脂饮食(HFD)会产生有害的代谢和认知影响。这些影响通常归因于饮食中高脂肪含量,而对与饮食高度精制状态相关的其他机制关注较少。尽管已经探讨了高脂饮食喂养对认知的影响,但关于精制食物与未精制食物对认知的影响知之甚少。我们检验了这样一个假设,即与未精制饮食相比,精制低脂饮食(LFD)会增加体重并对认知产生不利影响。
大鼠可随意获取未精制的啮齿动物饲料(对照组,Lab Diets 5001)或纯化的低脂饮食(精制组,Research Diets D12450B),持续6个月,并记录体重以及在工具性杠杆按压任务中的表现。
在各自饮食喂养6个月后,精制组大鼠比对照组大鼠体重显著增加更多。对于蔗糖和水强化,精制组大鼠的杠杆按压次数显著少于对照组大鼠,并且表现出显著更低的断点,表明工具性表现的动机长期降低。将大鼠的饮食切换9天对这些指标没有影响。
饮食诱导的肥胖会导致大鼠动机行为出现严重缺陷,与饮食脂肪含量无关。这对肥胖与动机之间的关联具有启示意义。具体而言,与肥胖共病的行为特征,如抑郁和疲劳,可能是肥胖的影响而非促成原因。正如我们研究中所表明的,精制食物导致肥胖的程度,它们可能对其他行为和认知障碍起到重要的促成作用。
