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Intracellular sodium elevation reprograms cardiac metabolism

Dunja Aksentijević, Anja Karlstaedt, Marina Basalay, Brett A. O’Brien, David Sánchez-Tatay, Seda Eminaga, Alpesh Thakker, Daniel A. Tennant, William Fuller, Thomas R. Eykyn, Heinrich Taegtmeyer, Michael J. Shattock

2020Nature Communications84 citationsDOIOpen Access PDF

Abstract

Abstract Intracellular Na elevation in the heart is a hallmark of pathologies where both acute and chronic metabolic remodelling occurs. Here, we assess whether acute (75 μM ouabain 100 nM blebbistatin) or chronic myocardial Na i load (PLM 3SA mouse) are causally linked to metabolic remodelling and whether the failing heart shares a common Na-mediated metabolic ‘fingerprint’. Control (PLM WT ), transgenic (PLM 3SA ), ouabain-treated and hypertrophied Langendorff-perfused mouse hearts are studied by 23 Na, 31 P, 13 C NMR followed by 1 H-NMR metabolomic profiling. Elevated Na i leads to common adaptive metabolic alterations preceding energetic impairment: a switch from fatty acid to carbohydrate metabolism and changes in steady-state metabolite concentrations (glycolytic, anaplerotic, Krebs cycle intermediates). Inhibition of mitochondrial Na/Ca exchanger by CGP37157 ameliorates the metabolic changes. In silico modelling indicates altered metabolic fluxes (Krebs cycle, fatty acid, carbohydrate, amino acid metabolism). Prevention of Na i overload or inhibition of Na/Ca mito may be a new approach to ameliorate metabolic dysregulation in heart failure.

Topics & Concepts

IntracellularSodiumMetabolismCell biologyComputer scienceBiologyChemistryBiochemistryOrganic chemistryIon Transport and Channel RegulationElectrolyte and hormonal disordersMitochondrial Function and Pathology