Antioxidant capacity of mononitrosyl-iron-dithiocarbamate complexes: implications for NO trapping.

Using EPR spectroscopy, we show that the water-soluble mononitrosyl iron complexes with N-methyl-D-glucamine dithiocarbamate (MNIC-MGD) ligands can easily react with superoxide and with peroxynitrite. The reaction with superoxide transforms the paramagnetic MNIC-MGD complex into an EPR silent complex with a reaction rate of 3 x 10(7) (M.s)(-1). Suppletion of ascorbate partially restores the complexes to their original paramagnetic state. We propose that the reaction of MNIC-MGD with either superoxide or peroxynitrite leads to identical EPR silent complexes. Our results have important implications for the technique of NO trapping in biosystems with Fe-dithiocarbamate complexes, where mononitrosyl-iron complexes (hydrophilic as well as hydrophobic) are formed as adducts in the trapping reaction. This principle is illustrated by NO trapping experiments on viable cultured endothelial cells. We find that MNIC-MGD acts as a very potent and water-soluble antioxidant with an efficiency exceeding most SOD mimics. Moreover, by accounting for the EPR silent fraction of iron complexes, the sensitivity of NO trapping can be enhanced considerably. The method was demonstrated for hydrophobic iron-dithiocarbamate complexes in endothelial cell cultures, where sensitivity for NO detection was enhanced by a factor of 5.