Abstract
Generation of reactive oxygen species during redox cycling is thought to be involved in the chemotherapeutic action of quinone anticancer drugs. A clinically used agent which contains a quinone moiety is mitomycin C (Mit C). With isolated rat liver microsomes we detected photemissive species during Mit C-induced redox cycling. After addition of reduced glutathione (GSH) a large increase in Mit C-induced chemiluminescence was observed. The increase of photoemission in deuterium oxide as well as >90% of intensity at wavelengths >610 nm suggest that singlet oxygen is a photoemissive species generated by this system. Glutathione disulfide (GSSG) accumulates during the reaction. We propose that superoxide anion radicals formed during redox cycling of Mit C react with GSH. Generation of glutathionyl radicals followed by oxygen addition then leads to the formation of photoemissive species and GSSG.
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