NMR studies of beta-oxidation and short-chain fatty acid metabolism during recovery of reperfused hearts.

The effects of beta-oxidation on the contractile recovery and metabolic activity of postischemic (10 min) rabbit hearts were examined during reperfusion with the short-chain fatty acid butyrate. Hearts received either 13C-enriched butyrate or acetate to evaluate metabolic targeting with 13C nuclear magnetic resonance (NMR) spectroscopy. Acetate and butyrate supported similar contractility (rate of pressure development, dP/dt) and 31P-NMR-detected, high-energy phosphate (HEP) levels during normal perfusion. In postischemic hearts, butyrate sustained a greater percentage of preischemic dP/dt (83 +/- 4%) than did acetate reperfusion (44 +/- 6%, P less than 0.05) with no differences in HEP. The efficiency of oxygen consumption per unit of work was greater in hearts reperfused with butyrate (2.8 +/- 0.2 microM.g-1.mmHg-1) vs. acetate (3.4 +/- 0.1). Inhibition of butyrate oxidation with 4-bromocrotonic acid (4-BCA) during normal perfusion severely reduced dP/dt and HEP. Acetate supported normal dP/dt and HEP le...