Improved cardiac function after prolonged hypothermic ischemia with the Na+/H+ exchange inhibitor HOE 694

Background. Na+/H+ exchange represents an important mechanism for pH regulation in the cardiac cell that, however, may paradoxically mediate tissue damage in the reperfused myocardium. We investigated whether inhibition of the exchanger can protect the heart against damage after prolonged hypothermic storage with the use of the selective inhibitor 3-methylsulfony-4-piperidinobenzoyl-guanidine methanesulfonate (HOE 694). Methods. After equilibration, isolated rabbit hearts were arrested with a 3 minute infusion of modified St. Thomas' cardioplegic solution and subsequently maintained in ischemic arrest at 4 degrees C for 12 hours before reperfusion at 37 degrees C for 60 minutes. Left ventricular function and creatine kinase release were measured at intervals throughout reperfusion. High-energy phosphate and adenine nucleotide content were determined in hearts before cardioplegia, at the end of the 12-hour storage period, and at the end of reperfusion. HOE 694 (1 mu mol/L) was administered either with cardioplegia and throughout reperfusion (study 1) or selectively with either cardioplegia or reperfusion only (study 2). Results. In study 1, systolic function in untreated hearts recovered to less than 40% of preischemic values and was associated with a greater than 1,000% percent sustained elevation in left ventricular end-diastolic pressure. In contrast, systolic recovery in HOE 694-treated hearts was significantly accelerated and improved to approximately 80%, whereas left ventricular end-diastolic pressure increased to only 300% of baseline. Significant protection also occurred in those hearts in which HOE 694 was administered only at reperfusion while the drug was less effective if given only during cardioplegia. Creatine kinase release was not significantly affected except in study 2, where it was significantly lower after 60 minutes of reperfusion in hearts where HOE 694 was added at the time of reperfusion. Tissue metabolite content was not affected by drug treatment. Conclusions. This study shows a marked protective effect of the Na+/H+ exchange inhibitor HOE 694 in rabbit hearts subjected to 12 hours of hypothermic ischemia and strongly suggests that antiport inhibitors could play an effective role in myocardial preservation.