62 The source of liver fat may be adipose tissue because the acti

62 The source of liver fat may be adipose tissue because the activation of CB1 receptors in adipocytes promotes lipogenesis,71 and the released fatty HM781-36B acids may be taken up and converted to triglycerides (TGs) by the liver.4 On the other hand, the rapid depletion of excess hepatic TGs after CB1 blockade may involve hepatic CB1 receptors, as indicated by the increased rate of secretion of TG-rich very low density lipoprotein (VLDL) from the livers of both DIO and ob/ob mice after treatment with a peripherally restricted CB1 antagonist62 (see Fig. 2). Endocannabinoids are also involved in the

diet-induced decrease in fatty acid oxidation. The activity of hepatic carnitine palmitoyltransferase 1 (CPT1), the rate-limiting enzyme in mitochondrial fatty acid β-oxidation, is suppressed by either a high-fat diet or treatment with a

CB1 agonist, and both effects are prevented by rimonabant.24 Conversely, hepatic CPT1 activity is increased in CB1−/− mice24 and in DIO mice after chronic CB1 blockade.24, 62, 72 Adiponectin is a key stimulator of fatty acid β-oxidation, and CB1 blockade increases plasma adiponectin.73 The improved insulin sensitivity following CB1 blockade Navitoclax price has been found to have both adiponectin-dependent74, 75 and adiponectin-independent components,75 although the role of adiponectin in the effects of CB1 blockade on hepatic mitochondrial function and fatty acid oxidation has not been explored. Increased energy expenditure due to increased fat oxidation after CB1 blockade has been documented with indirect selleck chemicals llc calorimetry in rats76-78 and mice.62 These effects likely contribute to the food intake–independent sustained weight loss62, 79 as well

as the reversal of hepatic steatosis62, 80, 81 after chronic CB1 blockade. The DIO-related hypertriglyceridemia was modestly attenuated, whereas the accompanying increase in plasma LDL cholesterol and decrease in high-density lipoprotein cholesterol were absent in both CB1−/− and LCB1−/− mice on a high-fat diet. This suggests that hepatic CB1 mediates diet-induced changes in hepatic lipoprotein metabolism and/or secretion. In a recent study, the treatment of mice with an inhibitor of monoglyceride lipase resulted in elevated hepatic levels of 2-AG, increased hepatic expression of sterol regulatory element binding protein 1c (SREBP1c) and FAS, hypertriglyceridemia, and an accumulation in plasma of apolipoprotein E (ApoE)–depleted, TG-rich apolipoproteins.68 These changes were absent in CB1−/− and ApoE−/− mice and could be prevented by CB1 blockade. Furthermore, despite the elevated hepatic lipogenic gene expression, TG secretion rates were unchanged, but TG clearance from plasma was inhibited.

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