NAD(P)H:quinone oxidoreductase: polymorphisms and allele frequencies in Caucasian, Chinese and Canadian Native Indian and Inuit populations


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Abstract

NAD(P)H:quinone oxidoreductase (NQO1) catalyses the two-electron reduction of quinone compounds. NQO1 is involved in the reductive bioactivation of cytotoxic antitumour quinones such as mitomycin C, but also plays a protective role against the carcinogenicity and mutagenicity of quinones, their precursors and metabolites. Three alleles have been identified in the human population: the functional Argl39/Prol87 allele (which we have termed NQO1*1); the nonfunctional allele Argl39/Serl87 (JVQ0I*2) and the Trp139/Prol87 allele (JVQOI*3), which is associated with a diminished activity. We applied polymerase chain reaction-based genotyping assays to characterize interethnic variability in the frequency of NQO1 alleles in Caucasian (n=575), Canadian Native Indian (n=110), Canadian Inuit (n=83) and Chinese (n=86) populations. The NQO1 *2 allele was found at significantly higher frequencies in Chinese (0.49) and Native North American populations (Inuit 0.46; Canadian Native Indians 0.40) compared with Caucasians (0.16). The NQO1*3 allele was not observed in Inuit individuals, and occurred at a lower frequency than the NQO*2 allele in Caucasians (0.05), Chinese (0.04) and Canadian Native Indians (0.01). Our results predict that a greater proportion of Orientals and related ethnic groups lack, or have reduced, NQO1 activity relative to Caucasians. Affected individuals may not only exhibit resistance to quinone-based cancer therapy because of a decreased production of cytotoxic drug metabolites, but may also be more susceptible to toxicities associated with toxicants.

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