Iron-induced oxidative stress has been implicated in several pathological processes. In the present work we provide evidence for the formation of a mangiferin:Fe(III) complex (2:1), shown by means of either iron-induced changes in the UV/visible spectrum of mangiferin or by reduction of the anodic current peak in the voltammogram of that compound; we demonstrate, in addition, that the ferric complex is more effective than mangiferin itself in scavenging superoxide radicals generated by pyrogallol autoxidation, as well as in protecting hepatocytes from reactive oxygen species mediated hypoxia/reoxygenation injury. Moreover, we found that the mangiferin:Fe(III) complex reacts more readily with horseradish peroxidase/H(2)O(2) than does mangiferin by itself. We postulate that mangiferin could afford protection against iron/reactive oxygen species-mediated pathological processes by means of both iron chelating and iron-stimulated superoxide radical scavenging activity.