Abstract
alpha-Tocopherol (alpha-TOH) can promote lipid peroxidation in human low density lipoprotein (LDL) unless co-antioxidants are present that eliminate the chain-carrying alpha-tocopheroxyl radical (alpha-TO.) (Bowry, V. W., Mohr, D., Cleary, J., and Stocker, R. (1995) J. Biol. Chem. 270, 5756-5763). Interferon-gamma inhibits human monocyte/macrophage-facilitated LDL lipid peroxidation via induction of cellular tryptophan degradation and production and release of 3-hydroxyanthranilic acid (3HAA) (Christen, S., Thomas, S. R., Garner, B., and Stocker, R. (1994) J. Clin. Invest. 93, 2149-2158). We now report on the mechanism of antioxidant action of 3HAA. 3HAA directly reduced alpha-TO. in UV-exposed micellar dispersions of alpha-TOH or in LDL incubated with soybean 15-lipoxygenase (SLO), as assessed by electron paramagnetic resonance spectroscopy. 3HAA did not inhibit SLO enzyme activity. Anthranilic acid, which lacks the phenoxyl group, was incapable of reducing alpha-TO.. 3HAA dose-dependently inhibited the peroxidation of surface phospholipids and core cholesteryl esters in LDL exposed to SLO, peroxyl radicals (ROO.), or Cu2+; oxidants that convert alpha-TOH to alpha-TO.. In all cases, sparing of LDL's alpha-TOH, but not ubiquinol-10 (CoQ10H2), was observed until the majority of 3HAA was consumed. Addition of 3HAA or ascorbate prevented further consumption of alpha-TOH and accumulation of lipid hydroperoxides when added to aqueous or lipophilic ROO.-oxidizing LDL after complete and partial consumption of CoQ10H2 and alpha-TOH, respectively. In contrast, addition of urate, an efficient ROO. scavenger incapable of scavenging alpha-TO., did not efficiently inhibit ongoing lipid peroxidation. Oxidation of 3HAA-supplemented human plasma by aqueous ROO. resulted in the successive consumption of ascorbate, CoQ10H2, 3HAA, bilirubin, alpha-TOH, and urate. Lipid peroxidation was prevented as long as ascorbate, CoQ10H2, and 3HAA were present, but subsequently proceeded as a free-radical chain reaction concomitant with alpha-TOH, bilirubin, and urate consumption. Addition of 3HAA to aqueous ROO.-oxidizing plasma, after complete consumption of ascorbate and CoQ10H2, strongly inhibited ongoing lipid peroxidation and consumption of alpha-TOH, bilirubin, and urate immediately and as efficiently as did ascorbate. These findings demonstrate that 3HAA is a highly efficient co-antioxidant for plasma lipid peroxidation by virtue of its ability to interact with alpha-TO. in lipoproteins. Since interferon-gamma is the principal inducer of tryptophan degradation and release of 3HAA by monocytes/macrophages, this may represent a localized extracellular antioxidant defense against LDL oxidation in inflammation.
Highlights
Oxidative modification of low density lipoprotein (LDL)1 is implicated as an important early event in atherogenesis [1, 2]
After 15-min incubation at 37 °C, a 400-l aliquot was removed and analyzed for ␣-TO1⁄7 by electron paramagnetic resonance (EPR) (C) as described under “Experimental Procedures.” 3-hydroxyanthranilic acid (3HAA) (10 M) was added to the LDL solution (D), which was re-analyzed for ␣-TO1⁄7
Control LDL treated with phosphate buffer instead of 3HAA showed ␣-TO1⁄7 at the same concentration as that shown in C
Summary
Oxidative modification of low density lipoprotein (LDL)1 is implicated as an important early event in atherogenesis [1, 2]. TMP can be prevented by co-antioxidants (XH), compounds capable of efficiently scavenging the ␣-TO1⁄7 in oxidizing LDL and exporting the radical into the aqueous phase (Scheme I, reaction 6) [20].
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