Second window of preconditioning normalizes palmitate use for oxidation and improves function during low-flow ischaemia

Abstract

Aims Although a major mechanism for cardioprotection is altered metabolism, little is known regarding metabolic changes in ischaemic preconditioning and subsequent ischaemia. Our objective was to examine the effects of the second window of preconditioning (SWOP), the delayed phase of preconditioning against infarction and stunning, on long-chain free fatty acid (LCFA) oxidation during ischaemia in chronically instrumented, conscious pigs.Methods and resultsWe studied three groups: (i) normal baseline perfusion (n 5); (ii) coronary artery stenosis (CAS; n 5); (iii) CAS 24 h following 2 × 10 min coronary occlusions and 10 min reperfusion (n 7). Ischaemia was induced by a left anterior descending (LAD) stenosis (40 flow reduction) for 90 min, dropping systolic wall thickening by 72. LCFA oxidation was assessed following LAD infusion of 13C palmitate, i.e. during control or stenosis, by in vitro nuclear magnetic resonance of the sampled myocardium. Stenosis reduced subendocardial blood flow subendocardially, but not subepicardial, yet induced transmural reductions in LCFA oxidation and increased non-oxidative glycolysis. During stenosis, preconditioned hearts showed normalized contributions of LCFA to oxidative ATP synthesis, despite increased lactate accumulation. SWOP induced a shift towards LCFA oxidation during stenosis, despite increased malonyl-CoA, and marked protection of contractile function with a significant improvement in systolic wall thickening.ConclusionThus, the second window of preconditioning normalized oxidative metabolism of LCFA during subsequent ischaemia despite elevated non-oxidative glycolysis and malonyl-CoA and was linked to protection of regional contractile function resulting in improved mechanical performance. Interestingly, the metabolic responses occurred transmurally while ischaemia was restricted solely to the subendocardium. © 2011 The Author.