Induction of fatty acid oxidation resists weight gain, ameliorates hepatic steatosis and reduces cardiometabolic risk factors.

OBJECTIVE: Fatty acid oxidation has been implicated in amelioration of obesity by burning off excessive accumulated lipid. BPR697, a peripheral cannabinoid receptor 1 (CB1) antagonist, elevated fat oxidation without added energy expenditure. Its impact on food intake, body weight changes and metabolic alterations were examined in rats fed standard chow and in diet-induced obesity (DIO) mice.

MATERIALS AND METHODS: CB1 agonist-induced hypothermia and analgesia responses were measured to examine the brain activity of BPR697. The acute effects of BPR697 on food intake, body weight change and post-absorptive metabolic profiles were investigated in rats. Energy utilization with BPR697 was examined by indirect calorimetry. Chronic treatment of DIO mice was used to evaluate the long-term effects of BPR697.

RESULTS: Distribution of BPR697 was significantly biased in favor of the periphery instead of the brain, as shown by its low brain/plasma concentration ratio and confirmed by the negative response of BPR697 in CB1 agonist-induced hypothermia and analgesia. When administered to rats at 20 mg kg(-1), BPR697 showed a unique spectrum of effects with significant weight loss without altered food intake. Furthermore, BPR697 increased serum levels of free fatty acids and ketone bodies and reduced hepatic lipid accumulation with preservation of liver glycogen in postprandial rats. Indirect calorimetric profiling of BPR697 revealed a similar trend, shifting whole-body energy catabolism toward fat oxidation, but without elevated energy expenditure. In DIO mice with chronic treatment, animals treated with BPR697 at 20 mg kg(-1) resisted weight gain and showed a reduction of high-fat-induced cardiometabolic abnormalities such as hyperglycemia, abdominal fat and liver steatosis.

CONCLUSION: The induction of fatty acid oxidation without concomitant elevation of energy expenditure by the peripheral CB1 antagonist BPR697 is sufficient to cause substantial weight loss in chow-fed rats. In the presence of high-dietary fat intake, BPR697 resists weight gain and alleviates obesity-related cardiometabolic risk factors.