TY - JOUR T1 - High Fat Diet Stimulates Beta-Oxidation, Alters Electrical Properties and Induces Adipogenicity of Atria in Obese Mice JF - bioRxiv DO - 10.1101/2020.10.20.347161 SP - 2020.10.20.347161 AU - Nadine Suffee AU - Elodie Baptista AU - Jérôme Piquereau AU - Maharajah Ponnaiah AU - Nicolas Doisne AU - Farid Ichou AU - Marie Lhomme AU - Camille Pichard AU - Vincent Galand AU - Nathalie Mougenot AU - Gilles Dilanian AU - Laurence Lucats AU - Elise Balse AU - Mathias Mericskay AU - Wilfried Le Goff AU - Stéphane Hatem Y1 - 2020/01/01 UR - http://biorxiv.org/content/early/2020/10/21/2020.10.20.347161.abstract N2 - Metabolic disorders such as obesity are risk factors of atrial fibrillation, not only by sharing comorbidities but likely through their direct impact on atria, notably its adipogenicity. Here, we submitted mice that lack cardiac adipose tissue to a high fat diet and first studied the atrial metabolomic and lipidomic phenotypes using liquid chromatography-mass spectrometry. We found an increased consumption of free fatty acid by the beta-oxidation and an accumulation of long-chain lipids in atria of obese mice. Free fatty acid was the main substrate of mitochondrial respiration studied in the saponin-permeabilized atrial muscle. Conducted action potential recorded in atrial trabeculae was short, and ATP-sensitive potassium current was increased in perforated patch-clamp atrial myocytes of obese mice. There was histological and phenotypical evidence for an accumulation of adipose tissue in obese mice atria. Thus, an obesogenic diet transforms the energy metabolism, causes fat accumulation and induces electrical remodeling of atria myocardium.HIGHLIGHTS- Untargeted metabolomic and lipidomic analysis revealed that a high fat diet induces profound transformation of atrial energy metabolism with beta-oxidation activation and long-chain lipid accumulation.- Mitochondria respiration studied in atrial myocardial trabecula preferentially used Palmitoyl-CoA as energy substrate in obese mice.- Atria of obese mice become vulnerable to atrial fibrillation and show short action potential due to the activation of K-ATP dependent potassium current.- Adipocytes and fat molecular markers were detected in atria of obese mice together with an inflammatory profile consistence with a myocardial accumulation of fat.Competing Interest StatementThe authors have declared no competing interest. ER -