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  • Title: Na(+)-H+ exchange inhibition at reperfusion is cardioprotective during myocardial ischemia-reperfusion; 31P NMR studies.
    Author: Docherty JC, Yang L, Pierce GN, Deslauriers R.
    Journal: Mol Cell Biochem; 1997 Nov; 176(1-2):257-64. PubMed ID: 9406170.
    Abstract:
    To help resolve the controversy as to whether or not Na(+)-H+ exchange is functioning during reperfusion of the ischemic myocardium we assessed the effects of dimethylamiloride (DMA, an amiloride analogue possessing selectivity for inhibition of the Na(+)-H+ exchanger) on cardiac function and intracellular pH during ischemia-reperfusion. Studies were performed in the presence of bicarbonate (modified Krebs-Henseleit buffer) or in the nominal absence of bicarbonate (HEPES buffer) in order to determine if similar cardioprotection and effects on intracellular pH were observed in the presence and absence of bicarbonate dependent transport processes. Isovolumic rat hearts were perfused in the Langendorff mode at a constant pressure of 80 mm Hg and subjected to 28 min total global ischemia at 37 degrees C. Intracellular pH was determined from the pH dependent shift of the inorganic phosphate peak in 31P nuclear magnetic resonance spectra. DMA (20 microM) was infused for either 2.5 min before ischemia, for the initial 5 min of reperfusion, or at both time intervals. DMA had no effect on the intracellular pH during ischemia. Intracellular pH returned to pre-ischemic levels within 2.5 min of reperfusion in bicarbonate buffer. This normalization of pH was slower in HEPES perfusate. In both bicarbonate and HEPES perfused hearts all drug dosing regimens caused a significant increase in the recovery of mechanical function after reperfusion and slowed the recovery of intracellular pH during reperfusion. These results suggest that the Na(+)-H+ exchanger is activated during reperfusion of the ischemic myocardium, that this activation of the exchanger contributes to ischemia-reperfusion induced cardiac dysfunction and that administration of an inhibitor of Na(+)-H+ exchange at reperfusion significantly attenuates the deleterious effects of exchanger activation.
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