The role of antioxidants in the long-term glycation of low density lipoprotein and its Cu2+-catalyzed oxidation.

In the present study we investigated the influence of antioxidants such as EDTA, alpha-tocopherol, troglitazone and acetylsalicylic acid on the long-term-glycation of LDL and its copper ion-catalyzed oxidation. We observed that (a) all antioxidants inhibited AGE-formation, while Amadori product formation was only diminished by extreme concentrations of acetylsalicylic acid, (b) glycated LDL was more susceptible to copper-catalyzed oxidation than unglycated LDL, and (c) the oxidation of native LDL was more dramatically inhibited by the antioxidants than that of glycated LDL. The observed differences may be a consequence of the significantly higher endogenous content in hydroperoxides of glycated LDL as compared to native LDL. Therapeutic implications of these findings regarding vitamin E, which is supposed to slow atherogenesis and the development of microvascular complications in diabetes, are obvious: Vitamin E-monotherapy, while blocking oxidative and AGE-modification of LDL, is unable to inhibit its AP-formation. As a consequence, tocopherol is susceptible to increased consumption by AP-associated radical production in hyperglycemic patients, which could be checked in part by the tocopherol-protecting agent troglitazone and/or by acetylsalicylic acid.