Effects of KATP channel openers diazoxide and pinacidil in coronary-perfused atria and ventricles from failing and non-failing human hearts

Abstract This study compared the effects of ATP-regulated potassium channel (KATP ) openers, diazoxide and pinacidil, on diseased and normal human atria and ventricles. We optically mapped the endocardium of coronary-perfused right ( n = 11) or left ( n = 2) posterior atrial–ventricular free wall preparations from human hearts with congestive heart failure (CHF, n = 8) and non-failing human hearts without (NF, n = 3) or with (INF, n = 2) infarction. We also analyzed the mRNA expression of the KATP targets Kir 6.1, Kir 6.2, SUR1, and SUR2 in the left atria and ventricles of NF ( n = 8) and CHF ( n = 4) hearts. In both CHF and INF hearts, diazoxide significantly decreased action potential durations (APDs) in atria (by − 21 ± 3% and − 27 ± 13%, p < 0.01) and ventricles (by − 28 ± 7% and − 28 ± 4%, p < 0.01). Diazoxide did not change APD (0 ± 5%) in NF atria. Pinacidil significantly decreased APDs in both atria (− 46 to −80%, p < 0.01) and ventricles (− 65 to − 93%, p < 0.01) in all hearts studied. The effect of pinacidil on APD was significantly higher than that of diazoxide in both atria and ventricles of all groups ( p < 0.05). During pinacidil perfusion, burst pacing induced flutter/fibrillation in all atrial and ventricular preparations with dominant frequencies of 14.4 ± 6.1 Hz and 17.5 ± 5.1 Hz, respectively. Glibenclamide (10 μM) terminated these arrhythmias and restored APDs to control values. Relative mRNA expression levels of KATP targets were correlated to functional observations. Remodeling in response to CHF and/or previous infarct potentiated diazoxide-induced APD shortening. The activation of atrial and ventricular KATP channels enhances arrhythmogenicity, suggesting that such activation may contribute to reentrant arrhythmias in ischemic hearts.