Role of a novel dual flavin reductase (NR1) and an associated histidine triad protein (DCS-1) in menadione-induced cytotoxicity
Copyright policy )Role of a novel dual flavin reductase (NR1) and an associated histidine triad protein (DCS-1) in menadione-induced cytotoxicity
Microsomal cytochrome P450 reductase catalyzes the one-electron transfer from NADPH via FAD and FMN to various electron acceptors, such as cytochrome P450s or to some anti-cancer quinone drugs. This results in generation of free radicals and toxic oxygen metabolites, which can contribute to the cytotoxicity of these compounds. Recently, a cytosolic NADPH-dependent flavin reductase, NR1, has been described which is highly homologous to the microsomal cytochrome P450 reductase. In this study, we show that over-expression of NR1 in human embryonic kidney cells enhances the cytotoxic action of the model quinone, menadione. Furthermore, we show that a novel human histidine triad protein DCS-1, which is expressed together with NR1 in many tissues, can significantly reduce menadione-induced cytotoxicity in these cells. We also show that DCS-1 binds NF1 and directly modulates its activity. These results suggest that NR1 may play a role in carcinogenicity and cell death associated with one-electron reductions.
- University of British Columbia Canada
- Hospital for Sick Children Canada
Saccharomyces cerevisiae Proteins, Dose-Response Relationship, Drug, Flavoproteins, Cell Survival, Vitamin K 3, Kidney, Cell Line, Humans, Oxidoreductases, N-Glycosyl Hydrolases, Signal Transduction
Saccharomyces cerevisiae Proteins, Dose-Response Relationship, Drug, Flavoproteins, Cell Survival, Vitamin K 3, Kidney, Cell Line, Humans, Oxidoreductases, N-Glycosyl Hydrolases, Signal Transduction
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