Molecular therapy for obesity and diabetes based on a long‐term increase in hepatic fatty‐acid oxidation

Obesity‐induced insulin resistance is associated with both ectopic lipid deposition and chronic, low‐grade adipose tissue inflammation. Despite their excess fat, obese individuals show lower fatty‐acid oxidation (FAO) rates. This has raised the question of whether burning off the excess fat could im...

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Veröffentlicht in:Hepatology (Baltimore, Md.) Md.), 2011-03, Vol.53 (3), p.821-832
Hauptverfasser: Orellana‐Gavaldà, Josep M., Herrero, Laura, Malandrino, Maria Ida, Pañeda, Astrid, Sol Rodríguez‐Peña, Maria, Petry, Harald, Asins, Guillermina, Van Deventer, Sander, Hegardt, Fausto G., Serra, Dolors
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Sprache:eng
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Zusammenfassung:Obesity‐induced insulin resistance is associated with both ectopic lipid deposition and chronic, low‐grade adipose tissue inflammation. Despite their excess fat, obese individuals show lower fatty‐acid oxidation (FAO) rates. This has raised the question of whether burning off the excess fat could improve the obese metabolic phenotype. Here we used human‐safe nonimmunoreactive adeno‐associated viruses (AAV) to mediate long‐term hepatic gene transfer of carnitine palmitoyltransferase 1A (CPT1A), the key enzyme in fatty‐acid β‐oxidation, or its permanently active mutant form CPT1AM, to high‐fat diet‐treated and genetically obese mice. High‐fat diet CPT1A‐ and, to a greater extent, CPT1AM‐expressing mice showed an enhanced hepatic FAO which resulted in increased production of CO2, adenosine triphosphate, and ketone bodies. Notably, the increase in hepatic FAO not only reduced liver triacylglyceride content, inflammation, and reactive oxygen species levels but also systemically affected a decrease in epididymal adipose tissue weight and inflammation and improved insulin signaling in liver, adipose tissue, and muscle. Obesity‐induced weight gain, increase in fasting blood glucose and insulin levels, and augmented expression of gluconeogenic genes were restored to normal only 3 months after AAV treatment. Thus, CPT1A‐ and, to a greater extent, CPT1AM‐expressing mice were protected against obesity‐induced weight gain, hepatic steatosis, diabetes, and obesity‐induced insulin resistance. In addition, genetically obese db/db mice that expressed CPT1AM showed reduced glucose and insulin levels and liver steatosis. Conclusion: A chronic increase in liver FAO improves the obese metabolic phenotype, which indicates that AAV‐mediated CPT1A expression could be a potential molecular therapy for obesity and diabetes. (HEPATOLOGY 2011)
ISSN:0270-9139
1527-3350
DOI:10.1002/hep.24140