Energy balance and facultative diet-induced thermogenesis in mice fed a high-fat diet

Abstract

The present study was aimed at studying energy balance in mice fed a high-fat diet. Albino mice were divided into three groups. One group had free access to the stock diet, whereas the two other groups consumed a high-fat diet. One of the high-fat fed groups was fed ad libitum, whereas the other was offered a restricted amount of the same diet so that its energy intake was comparable to the group of mice given the stock diet. Energy balance measurements, which included indirect calorimetry and carcass analysis, were performed. Brown adipose tissue (BAT) properties were also investigated. The results show that gains in both body weight and fat were higher in mice that had free access to high-fat diet than in mice fed the stock diet. In animals given a restricted amount of the high-fat diet, fat gain increased, whereas protein gain was reduced in comparison with animals fed the stock diet. Unrestricted access to the high-fat diet led to an increase in both energy intake and energy gain. As revealed by both slaughter and indirect calorimetry techniques energy expenditure was, in high-fat fed mice, 40% higher than in animals fed either stock or a restricted amount of high-fat diet. Nadolol was shown to suppress a large part of the elevated metabolic rate seen in mice fed an unrestricted high-fat diet. In those mice, BAT mitochondrial GDP binding was also increased. In summary, the present results confirm that adaptive diet-induced thermogenesis (DIT) develops in mice made hyperphagic by an energy-dense palatable diet. The present study provides further evidence that adaptive DIT is mediated by the sympathetic nervous system and involves BAT. Finally, it appears that the extent to which adaptive DIT develops is related to the degree of hyperphagia.