The role of superoxide radical in chromium(VI)-generated hydroxyl radical: The Cr(VI) haber-weiss cycle

To understand the role of the superoxide (O₂^-) radical in chromate-related genotoxicity, we investigated whether Cr(VI) can catalyze the Haber-Weiss cycle in vitro: O₂^- + Cr(VI) → Cr(V) + O₂ Cr(V) + H₂O₂ → Cr(VI) + ·OH + OH^-. ESR and spin trapping techniques were utilized to monitor the O₂^- (produced using xanthine/xanthine oxidase), ·OH, and Cr(V) species. Superoxide dismutase as well as catalase inhibited the ·OH radical radical formation, attesting to the direct involvement of O₂^- and H₂O₂ in the process. ESR measurements also provided direct evidence for the formation of Cr(V). Kinetic measurements were consistent with the role of Cr(V) and H₂O₂ as intermediates in ·OH formation. These results indicate that in cellular media, especially during chromate phagocytosis, the O₂^/t radical can become a significant source of ·OH radicals and hence a significant factor in the biochemical mechanism of cellular damage due to Cr(VI) exposure.