Protective role of pinacidil against adrenaline-induced myocardium injury in guinea pig liver mitochondria

We investigated the role of the ATP-sensitive potassium channel opener pinacidil and blocker glibenclamide on guinea pig liver mitochondrial function, and a possible significance of pinacidil in the pharmacological treatment during myocardium dystrophy. First, a series of experiments was performed to determine the effect of pinacidil and glibenclamide on mitochondrial oxygen consumption. We found that pinacidil increased the rate of mitochondrial respiration for FAD-generated substrate (succinate oxidation), but was most effective for α-ketoglutarate oxidation with enhancement of respiratory control ratio. Oxidation of FAD-generated substrate inhibited efficiency of phosphorylation for α-ketoglutarate oxidation in pinacidil-treated animals. Glibenclamide decreased the rate of respiration with the lowest value of efficiency of phosphorylation, especially for α-ketoglutarate oxidation. A second series of experiments was performed to determine the effects of pinacidil and glibenclamide on oxidative phosphorylation during adrenaline-induced myocardium dystrophy. The increase in respiratory control ratio and efficiency of phosphorylation for α-ketoglutarate oxidation was greater than for succinate oxidation in mitochondria of pinacidil-pretreated animals during myocardium dystrophy. Inhibitory analysis with malonate suggested that endogenous succinate increased oxidation of NADH-generated substrates in mitochondria. Pinacidil is mainly involved in the adrenaline-induced alterations of mitochondrial function due to elevation of phosphorylation efficiency for α-ketoglutarate oxidation and a decreased level of lipid peroxidation.