Autoxidation of Ubiquinol-6 Is Independent of Superoxide Dismutase

Abstract

Ubiquinone (Q) is an essential, lipid soluble, redox component of the mitochondrial respiratory chain. Much evidence suggests that ubiquinol (QH₂) functions as an effective antioxidant in a number of membrane and biological systems by preventing peroxidative damage to lipids. It has been proposed that superoxide dismutase (SOD) may protect QH₂ from autoxidation by acting either directly as a superoxide−semiquinone oxidoreductase or indirectly by scavenging superoxide. In this study, such an interaction between QH₂ and SOD was tested by monitoring the fluorescence of cis-parinaric acid (cPN) incorporated phosphatidylcholine (PC) liposomes. Q₆H₂ was found to prevent both fluorescence decay and generation of lipid peroxides (LOOH) when peroxidation was initiated by the lipid-soluble azo initiator DAMP, dimethyl 2,2‘-azobis (2-methylpropionate), while Q₆ or SOD alone had no inhibitory effect. Addition of either SOD or catalase to Q₆H₂-containing liposomes had little effect on the rate of peroxidation even when incubated in 100% O₂. Hence, the autoxidation of QH₂ is a competing reaction that reduces the effectiveness of QH₂ as an antioxidant and was not slowed by either SOD or catalase. The in vivo interaction of SOD and QH₂ was also tested by employing yeast mutant strains harboring deletions in either CuZnSOD and/or MnSOD. The sod mutant yeast strains contained the same percent Q₆H₂ per cell as wild-type cells. These results indicate that the autoxidation of QH₂ is independent of SOD.