The Journal of biological chemistry
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The synthetic retinoid N-(4-hydroxyphenyl)retinamide (4HPR) is being examined in both chemoprevention and therapy clinical trials. Yet, its mechanism(s) of action is still not fully elucidated. In previous studies, an increase in mitochondrial reactive oxygen species has been proposed as one mechanism through which 4HPR could exert its proapoptotic effects. ⋯ Complex I inhibitors, center o inhibitors of Complex III, cyanide, oligomycin A, and coenzyme Q analogues decreased 4HPR-induced hydroperoxide production. The coenzyme Q analogues were very effective in this respect, and they also blocked the enhanced hydroperoxide production obtained when center i inhibitors were combined with 4HPR. These results suggest the prooxidant property of 4HPR is associated with redox metabolism via an enzymatic process occurring at a quinone-binding site in Complex I and/or center o of Complex III.