The interplay between nitric oxide and peroxiredoxins.

Peroxiredoxins participate in the antioxidant response by reducing H(2)O(2), organic peroxides and peroxynitrite. Peroxiredoxins have a conserved NH(2)-terminal cysteine residue that is oxidized to sulfenic acid during catalysis of peroxide reduction. In eukaryotes, the sulfenic acid can be further oxidized to a sulfinic acid. Resulting inactivation of peroxiredoxins favors H(2)O(2) signaling but may eventually result in oxidative stress. Interestingly, it has recently been shown that overoxidized peroxiredoxins progressively recover activity owing to sulfiredoxin, an enzyme recently characterized in yeast and mammals. This reversible peroxide-sensitive switch represents a new type of regulation that controls reactive oxygen species-mediated cytoxicity and signaling. This report presents a brief overview of the regulation by peroxiredoxins of the messenger function of H(2)O(2) and comments on the results of recent studies that addressed the consequence of nitric oxide production on both expression and redox state of peroxiredoxins in various physiopathological processes including macrophage immunostimulation, the response of dopaminergic neurons to N-methyl-d-aspartate-stimulation and the plant hypersensitive response.