Interaction of positively charged ubiquinone analog (MitoQ10) with DT-diaphorase from liver mitochondria

Effects of the coenzyme Q analog (MitoQ₁₀) carrying a positively charged decyltetraphenylphosphonium group on functional activity of phosphorylating liver mitochondria were studied. Using inhibitory analysis it was found that at micromolar concentrations this quinone is reduced by NADH-dependent DT-diaphorase. Under conditions of malate oxidation, MitoQ₁₀ stimulates electron transfer from NADH to oxygen by shunting the block of rotenone-induced electron transport in Complex I. Steady-state mitochondrial respiration induced by rotenone and MitoQ₁₀ (1 μM), as well as K3 shunt are both blocked by the DT-diaphorase inhibitor dicumarol, the Complex III inhibitor myxothiazole, and the cytochrome oxidase inhibitor cyanide. The electron transport chain induced in liver mitochondria by MitoQ₁₀ in the presence of rotenone appears as follows: NADH → DT-diaphorase → MitoQ₁₀ → Complex III → Complex IV → O₂. Under conditions of malate (but not succinate) oxidation, MitoQ₁₀ and high concentrations of vitamin K3 induce in mitochondria cyanide-resistant respiration and opening of the nonspecific pore eventually resulting in inhibition of oxidative phosphorylation. It is concluded that MitoQ₁₀ should be regarded as an analog of hydrophilic quinones (vitamin K3, duroquinone, etc.) widely known as substrates for mitochondrial DT-diaphorase not interacting with CoQ₁₀ rather than as a natural CoQ₁₀ analog.