The interaction of superoxide radicals with active dicarbonyl compounds

The interaction of superoxide radical anion (O₂^•−) with active dicarbonyls (methylglyoxal, glyoxal, and malonic dialdehyde) was studied. It was demonstrated that glyoxal and methylglyoxal inhibited superoxide-dependent accumulation of formazan; however, malonic dialdehyde stimulated this process. The formation of O₂^•− in these experiments occurred during the decomposition of the SOTS-1 azo initiator. On the other hand, all of the studied dicarbonyls in this system of O₂^•− generation competed for superoxide with the TIR ON spin trap. These compounds also inhibited luminal-dependent chemiluminescence during the AIBN azo initiator-induced peroxidation of liposomes from the egg phosphatidylcholine. A mechanism for the antiradical and antioxidant effects of the studied dicarbonyls, assuming the production of free radical intermediates in their reactions with O₂^•− or its protonated form, is proposed.