Oxidation of human high-density lipoproteins by (OH)-O-center dot and (OH)-O-center dot/O-2(center dot-) free radicals

The aim of this work was to specify the mechanisms involved in the radical oxidation of human high-density lipoprotein (HDL) and to compare these mechanisms with those described previously for the oxidation of low-density lipoprotein (LDL) under the same experimental conditions (Bonnefont-Rousselot et al., Radiat. Res, 134, 271-282, 1993), The oxidation of HDL, initiated by (OH)-O-. or (OH)-O-./O-2(-) free radicals from gamma radiolysis of water, was evaluated as a function of increasing radiation dose by analyzing quantitatively the decrease of endogenous alpha-tocopherol and the formation of oxidation products (thiobarbituric acid-reactive substances and conjugated dienes). All qualitative conclusions were supported by quantitative data (radiation yields and concentrations of the oxidation markers at high radiation doses) and by the mechanisms of the kinetics, (OH)-O-. free radicals in the absence of oxygen were less efficient in initiating HDL oxidation than in the presence of oxygen (action of (OH)-O-./O-2(.-) free radicals), which was in agreement with the enhancement of the action of (OH)-O-. free radicals by oxygen. The remaining significant level of vitamin E in HDLs at high radiation doses in the absence of oxygen could be explained by a regeneration of vitamin E by an oxidation product that was able to reduce the alpha-tocopheroxyl radical, The yields related to the decrease in the vitamin E content of HDLs after exposure to radiation with (OH)-O-. or (OH)-O-./O-2(.-) free radicals were slightly higher than those obtained previously in LDLs under similar experimental conditions, Moreover, in the presence of oxygen, (OH)-O-. free radicals led to a lower formation of thiobarbituric acid-reactive substances in HDLs than in LDLs. Such discrepancies in the behavior of these two lipoprotein fractions could be related to the differences in the chemical composition of HDLs and LDLs, (C) 1997 by Radiation Research Society.