Cellular ubiquinone (UQ) is expected to act as an endogenous antioxidant against oxidative stress. To confirm this, UQ-reductases which are necessary to regenerate ubiquinol (UQH2) were investigated in rat tissue, and a novel NADPH-dependent UQ (NADPH-UQ) reductase was found in cytosol. The cytosolic NADPH-UQ reductase activity accounted for more than 80% of UQ-10 reduction by the rat liver homogenate in the presence of NADPH. Furthermore, the NADPH-UQ reductase activities in various tissues were correlated to the redox states of UQ in the corresponding tissues. Rat liver cytosol with NADPH protected lecithin liposomes containing UQ-10, as well as UQH2-10 from AMVN (2,2'-azobis(2,4-dimethylvaleronitrile))-induced lipid peroxidation. The enzyme purified from rat liver cytosol, reduced UQ-10 in lecithin liposomes at approximately the same rate as did cytosol. These results supported that cytosolic NADPH-UQ reductase is the enzyme responsible for nonmitochondrial UQ reduction acting as an endogenous antioxidant against oxidative stress. The antioxidant role of the UQ redox cycle and NADPH-UQ reductase was discussed in relation to other cellular NADPH-dependent antioxidant enzymes.
Ubiquinone (UQ) reductase responsible for reduction of non-mitochondrial UQ was investigated in rats toward demonstrating an antioxidant role of UQ. In the liver, most of cellular UQ-10 reductase activity was attributable to a novel NADPH-UQ reductase in cytosol. The enzyme was not inhibited by dicumarol and rotenone, and had a Km of 19 microM for NADPH and 307 microM for NADH at the optimum pH 7.4. The enzyme was purified 300-fold to apparent homogeneity from the liver cytosol by an affinity chromatographic method. The purified enzyme reduced UQ-10 in lecithin liposomes, and protected the liposomes from lipid peroxidation. Furthermore, supplementation of rats with UQ-10 was observed to increase the enzyme level in their livers without affecting levels of other antioxidant factors. The observations suggested that cytosolic NADPH-UQ reductase is responsible for cellular UQ redox cycle as an endogenous antioxidant.
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