α-Tocopheryl hydroquinone is an efficient multifunctional inhibitor of radical-initiated oxidation of low density lipoprotein lipids

Abstract

As the oxidation of low density lipoprotein (LDL) lipids may be a key event in atherogenesis, there is interest in antioxidants as potential anti-atherogenic compounds. Here we report that α-tocopheryl hydroquinone (α-TQH₂) strongly inhibited or completely prevented the (per)oxidation of ubiquinol-10 (CoQ₁₀H₂), α-tocopherol (α-TOH), and both surface and core lipids in LDL exposed to either aqueous or lipophilic peroxyl radicals, Cu²⁺, soybean lipoxygenase, or the transition metal-containing Ham’s F-10 medium in the absence or presence of human monocyte-derived macrophages. The antioxidant activity of α-TQH₂ was superior to that of several other lipophilic hydroquinones, including endogenous CoQ₁₀H₂, which is regarded as LDL’s first line of antioxidant defence. At least three independent activities contributed to the antioxidant action of α-TQH₂. First, α-TQH₂ readily associated with LDL and instantaneously reduced the lipoprotein’s ubiquinone-10 to CoQ₁₀H₂, thereby maintaining this antioxidant in its active form. Second, α-TQH₂ directly intercepted aqueous peroxyl radicals, as indicated by the increased rate of its consumption with increasing rates of radical production, independent of LDL’s content of CoQ₁₀H₂ and α-TOH. Third, α-TQH₂ rapidly quenched α-tocopheroxyl radical in oxidizing LDL, as demonstrated directly by electron paramagnetic resonance spectroscopy. Similar antioxidant activities were also seen when α-TQH₂ was added to high-density lipoprotein or the protein-free Intralipid, indicating that the potent antioxidant activity of α-TQH₂ was neither lipoprotein specific nor dependent on proteins. These results suggest that α-TQH₂ is a candidate for a therapeutic lipid-soluble antioxidant. As α-tocopherylquinone is formed in vivo at sites of oxidative stress, including human atherosclerotic plaque, and biological systems exist that reduce the quinone to the hydroquinone, our results also suggest that α-TQH₂ could be a previously unrecognized natural antioxidant.