Potentially deadly carcinogenic chromium redox cycle involving peroxochromium(IV) and glutathione.

Peroxochromium(IV) complexes are putative DNA-damaging and mutagenic agents in chromium(VI)-mediated carcinogenesis. The reaction between aquaethylenediaminebis(peroxo)chromium(IV) and glutathione at neutral pH exhibits a cyclic redox process displaying a persistent recycling of Cr(IV) and Cr(VI) with the intervention of chromium(V) intermediates. The coordination by a glutathione molecule triggers an autooxidation of the Cr(IV)-peroxo complex to Cr(VI) via an internal electron-transfer process followed by reduction to Cr(IV) via metastable chromium(V) intermediates. The cycle is repeated by the second peroxo species. The Cr(V) and -(IV) intermediates have been characterized as mono- and bisglutathionato complexes with or without a coordinated peroxo moiety. These intermediates are capable of damaging DNA, as evidenced by single strand breaks and DNA oxidation. The implication here is that the potential for a persistent, if not perpetual, deadly chromium carcinogenic cycle exists in the cellular milieu through the assistance of molecular oxygen and glutathione.