The Coenzyme Q10 Analog Decylubiquinone Inhibits the Redox-activated Mitochondrial Permeability Transition: ROLE OF MITOCHONDRIAL RESPIRATORY COMPLEX III

Abstract

The mitochondrial permeability transition (MPT) is a key event in apoptotic and necrotic cell death and is controlled by the cellular redox state. To further investigate the mechanism(s) involved in regulation of the MPT, we used diethylmaleate to deplete GSH in HL60 cells and increase mitochondrial reactive oxygen species (ROS) production. The site of mitochondrial ROS production was determined to be mitochondrial respiratory complex III (cytochrome bc1), because 1). stigmatellin, a Qo site inhibitor, blocked ROS production and prevented the MPT and cell death and 2). cytochrome bc1 activity was abolished in cells protected from the redox-dependent MPT by stigmatellin. We next investigated the effect of pretreating cells with coenzyme Q10 analogs decylubiquinone (dUb) and ubiquinone 0 (Ub0) on the redox-dependent MPT. Pretreatment of HL60 cells with dUb blocked ROS production induced by GSH depletion and prevented activation of the MPT and cell death, whereas Ub0 did not. Since we also found that dUb did not inhibit cytochrome bc1 activity, the mechanism of protection against redox-dependent MPT by dUb may depend on its ability to scavenge ROS generated by cytochrome bc1. These results indicate that dUb, like the clinically used ubiquinone analog idebenone, may serve as a candidate antioxidant compound for the development of pharmacological agents to treat diseases where there is an oxidative stress component.