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Τρίτη 18 Ιουλίου 2017

Loss of Hepatic Mitochondrial Long-Chain Fatty Acid Oxidation Confers Resistance to Diet-Induced Obesity and Glucose Intolerance

Publication date: 18 July 2017
Source:Cell Reports, Volume 20, Issue 3
Author(s): Jieun Lee, Joseph Choi, Ebru S. Selen Alpergin, Liang Zhao, Thomas Hartung, Susanna Scafidi, Ryan C. Riddle, Michael J. Wolfgang
The liver has a large capacity for mitochondrial fatty acid β-oxidation, which is critical for systemic metabolic adaptations such as gluconeogenesis and ketogenesis. To understand the role of hepatic fatty acid oxidation in response to a chronic high-fat diet (HFD), we generated mice with a liver-specific deficiency of mitochondrial long-chain fatty acid β-oxidation (Cpt2L−/− mice). Paradoxically, Cpt2L−/− mice were resistant to HFD-induced obesity and glucose intolerance with an absence of liver damage, although they exhibited serum dyslipidemia, hepatic oxidative stress, and systemic carnitine deficiency. Feeding an HFD induced hepatokines in mice, with a loss of hepatic fatty acid oxidation that enhanced systemic energy expenditure and suppressed adiposity. Additionally, the suppression in hepatic gluconeogenesis was sufficient to improve HFD-induced glucose intolerance. These data show that inhibiting hepatic fatty acid oxidation results in a systemic hormetic response that protects mice from HFD-induced obesity and glucose intolerance.

Graphical abstract

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Teaser

Lee et al. show that, contrary to expectations, the loss of hepatic fatty acid oxidation (FAO) confers resistance to weight gain and adiposity in response to a high-fat diet. Additionally, they show that loss of hepatic FAO—and, consequently, hepatic gluconeogenesis—protects mice from high-fat-diet-induced glucose intolerance.


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