UMR 866 INSERM-UB, Team Physiopathology of Dyslipidemia, Faculty of Sciences, Dijon, France.
Hepatology. 2012 Mar;55(3):790-9. doi: 10.1002/hep.24733. Epub 2012 Jan 30.
It is well established that inactivation of the central endocannabinoid system (ECS) through antagonism of cannabinoid receptor 1 (CB1R) reduces food intake and improves several pathological features associated with obesity, such as dyslipidemia and liver steatosis. Nevertheless, recent data indicate that inactivation of peripheral CB1R could also be directly involved in the control of lipid metabolism independently of central CB1R. To further investigate this notion, we tested the direct effect of the specific CB1R antagonist, SR141716, on hepatic carbohydrate and lipid metabolism using cultured liver slices. CB1R messenger RNA expression was strongly decreased by SR141716, whereas it was increased by the CB1R agonist, arachidonic acid N-hydroxyethylamide (AEA), indicating the effectiveness of treatments in modulating ECS activity in liver explants both from lean or ob/ob mice. The measurement of O(2) consumption revealed that SR141716 increased carbohydrate or fatty acid utilization, according to the cellular hormonal environment. In line with this, SR141716 stimulated ß-oxidation activity, and the role of CB1R in regulating this pathway was particularly emphasized when ECS was hyperactivated by AEA and in ob/ob tissue. SR141716 also improved carbohydrate and lipid metabolism, blunting the AEA-induced increase in gene expression of proteins related to lipogenesis. In addition, we showed that SR141716 induced cholesterol de novo synthesis and high-density lipoprotein uptake, revealing a relationship between CB1R and cholesterol metabolism.
These data suggest that blocking hepatic CB1R improves both carbohydrate and lipid metabolism and confirm that peripheral CB1R should be considered as a promising target to reduce cardiometabolic risk in obesity.
众所周知,通过拮抗大麻素受体 1 (CB1R) 使中央内源性大麻素系统 (ECS) 失活可减少食物摄入并改善与肥胖相关的几种病理特征,如血脂异常和肝脂肪变性。然而,最近的数据表明,外周 CB1R 的失活也可能独立于中央 CB1R 直接参与脂质代谢的控制。为了进一步研究这一观点,我们使用培养的肝切片测试了特异性 CB1R 拮抗剂 SR141716 对肝碳水化合物和脂质代谢的直接影响。CB1R 信使 RNA 的表达被 SR141716 强烈降低,而被 CB1R 激动剂花生四烯酸 N-羟乙基酰胺 (AEA) 增加,表明两种治疗方法在调节瘦鼠或 ob/ob 小鼠肝外植体中 ECS 活性的有效性。O(2)消耗的测量表明,根据细胞激素环境,SR141716 增加碳水化合物或脂肪酸的利用。与此一致,SR141716 刺激β-氧化活性,当 ECS 被 AEA 过度激活和在 ob/ob 组织中时,CB1R 调节这条途径的作用特别强调。SR141716 还改善了碳水化合物和脂质代谢,使 AEA 诱导的与脂肪生成相关的蛋白质基因表达增加减弱。此外,我们表明 SR141716 诱导胆固醇从头合成和高密度脂蛋白摄取,揭示了 CB1R 与胆固醇代谢之间的关系。
这些数据表明,阻断肝 CB1R 可改善碳水化合物和脂质代谢,并证实外周 CB1R 应被视为降低肥胖中心血管代谢风险的有希望的靶点。
