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1 Department of Pathology, Duke University Medical Center, Durham 27710; 2 National Institute of Environmental Health Sciences, Research Triangle Park, North Carolina 27709; and 3 Department of Pharmacology, Medical College of Wisconsin, Milwaukee, Wisconsin 53226
To determine whether A3 adenosine receptor (A3AR) signaling modulates myocardial function, energetics, and cardioprotection, hearts from wild-type and A3AR-overexpressor mice were subjected to 20-min ischemia and 40-min reperfusion while 31P NMR spectra were acquired. Basal heart rate and left ventricular developed pressure (LVDP) were lower in A3AR-overexpressor hearts than wild-type hearts. Ischemic ATP depletion was delayed and postischemic recoveries of contractile function, ATP, and phosphocreatine were greater in A3AR-hearts. To determine the role of depressed heart rate and to confirm A3AR-specific signaling, hearts were paced at 480 beats/min with or without 60 nmol/l MRS-1220 (A3AR-specific inhibitor) and then subjected to ischemia-reperfusion. LVDP was similar in paced A3AR-overexpressor and paced wild-type hearts. Differences in ischemic ATP depletion and postischemic contractile and energetic dysfunction remained in paced A3AR-overexpressor hearts versus paced wild-type hearts but were abolished by MRS-1220. In summary, A3AR overexpression decreased basal heart rate and contractility, preserved ischemic ATP, and decreased postischemic dysfunction. Pacing abolished the decreased contractility but not the ATP preservation or cardioprotection. Therefore, A3AR overexpression results in cardioprotection via a specific A3AR effect, possibly involving preservation of ATP during ischemia.
cardioprotection; ischemia; nuclear magnetic resonance spectroscopy
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