Cold cardioplegia and the K⁺ channel modulator aprikalim (RP 52891): improved cardioprotection in isolated ischemic rabbit hearts

Abstract: Cellular potassium extrusion is now considered a natural protective mechanism following myocardial ischemia, and newly synthetized molecules mimicking cellular extrusion of K+ (potassium channel activators) appear promising for cardioprotection, although the underlying mechanisms for their beneficial effects have not been fully characterized. Indeed, the cardioprotective efficacy of K+ channel activators at low temperature or in the presence of the high K+ content of standard cardioplegic solution has never be… Show more

“…While depolarizing cardioplegic solutions are efficacious, further increases in protection during the bypass procedure would be useful. Previous studies indicated that KAT, openers either have a small additional protective effect when combined with depolarizing cardioplegia or no additional effect (10,26). It was not apparent in these studies if the high potassium-containing cardioplegic solutions effectively abolished the pharmacologic activity of the KATp openers by attenuating the electrochemical gradient, although the study by Pignac et al (26) suggested some efficacy.…”

BMS‐180448, A Glyburide‐Reversible Cardioprotective Agent with Minimal Vasodilator Activity

“…While depolarizing cardioplegic solutions are efficacious, further increases in protection during the bypass procedure would be useful. Previous studies indicated that KAT, openers either have a small additional protective effect when combined with depolarizing cardioplegia or no additional effect (10,26). It was not apparent in these studies if the high potassium-containing cardioplegic solutions effectively abolished the pharmacologic activity of the KATp openers by attenuating the electrochemical gradient, although the study by Pignac et al (26) suggested some efficacy.…”

BMS‐180448, A Glyburide‐Reversible Cardioprotective Agent with Minimal Vasodilator Activity

“…Pharmacological studies suggest a role for I KATP channels, [97][98][99] although the consensus has been that preconditioning results from activation of mitochondrial, 100 not sarcolemmal, I KATP channels. [101][102][103][104] In Langendorff perfused Kir 6.2 Ϫ/Ϫ hearts, however, the protective effect of preconditioning is abolished in spite of the fact that the infarction resulting from ( The application of transgenic and targeted deletion strategies in mouse has led to the identification of the ␣ subunits contributing to the formation of most of the K ϩ channels expressed in cardiac cells (Tables 1 and 2).…”

Genetic Manipulation of Cardiac K ⁺ Channel Function in Mice

“…In this situation, the action potential shortening is accelerated, leading to a decrease in amplitude of intracellular Ca 2+ diffusion and Ca 2+ overload. 3,4 In this study, the K + ATP-dependent channel opener, aprikalim, can significantly prolong cardiac allograft survival compared to the control group. This protective effect may be caused by vasodilation and/or cardiac protection.…”

“…They play a major role in vascular tone, 2 in cardiac depolarization, 3,4 and in insulin secretion. 5 Confirmation that ion channels are implicated in T-lymphocyte activities has been reported and transmembrane movement plays a critical role in lymphocyte activities.…”

Prolongation of rat heart allograft survival with K+ATP-dependent channel modulators