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AIMS: Left ventricular hypertrophy is an adaptive response of the heart to chronic mechanical overload and can lead to functional deterioration and heart failure. Changes in cardiac energy metabolism are considered as key to the hypertrophic remodelling process. The concurrence of obesity and hypertrophy has been associated with contractile dysfunction, and this work therefore aimed to investigate the in vivo structural, functional, and metabolic remodelling that occurs in the hypertrophied heart in the setting of a high-fat, high-sucrose, Western diet (WD). METHODS AND RESULTS: Following induction of cardiac hypertrophy through abdominal aortic banding, male Sprague Dawley rats were exposed to either a standard diet or a WD (containing 45% fat and 16% sucrose) for up to 14 weeks. Cardiac structural and functional characteristics were determined by CINE MRI, and in vivo metabolism was investigated using hyperpolarized (13)C-labelled pyruvate. Cardiac hypertrophy was observed at all time points, irrespective of dietary manipulation, with no evidence of cardiac dysfunction. Pyruvate dehydrogenase flux was unchanged in the hypertrophied animals at any time point, but increased incorporation of the (13)C label into lactate was observed by 9 weeks and maintained at 14 weeks, indicative of enhanced glycolysis. CONCLUSION: Hypertrophied hearts revealed little evidence of a switch towards increased glucose oxidation but rather an uncoupling of glycolytic metabolism from glucose oxidation. This was maintained under conditions of dietary stress provided by a WD but, at this compensated phase of hypertrophy, did not result in any contractile dysfunction.

Original publication

DOI

10.1093/cvr/cvv101

Type

Journal article

Journal

Cardiovasc Res

Publication Date

01/05/2015

Volume

106

Pages

249 - 260

Keywords

13C magnetic resonance spectroscopy, Cardiac hypertrophy, Dynamic nuclear polarization, Metabolic remodelling, Pyruvate dehydrogenase, Animal Feed, Animals, Aorta, Abdominal, Cardiomegaly, Disease Models, Animal, Energy Metabolism, Heart Failure, Male, Oxidation-Reduction, Rats, Sprague-Dawley