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Alaska native smokers and smokeless tobacco users with slower CYP2A6 activity have lower tobacco consumption, lower tobacco-specific nitrosamine exposure and lower tobacco-specific nitrosamine bioactivation [Book Review]
Zhu Azx, Binnington Mj, Renner Cc, Lanier Ap, Hatsukami Dk, I. Stepanov, Watson Ch, Sosnoff Cs, Benowitz Nl & Tyndale Rf
Abstract
Nicotine, the psychoactive ingredient in tobacco, is metabolically inactivated by CYP2A6 to cotinine. CYP2A6 also activates procarcinogenic tobacco-specific nitrosamines. Genetic variation in CYP2A6 is known to alter smoking quantity and lung cancer risk in heavy smokers. Our objective was to investigate how CYP2A6 activity influences tobacco consumption and procarcinogen levels in light smokers and smokeless tobacco users. Cigarette smokers, commercial smokeless tobacco users and iqmik users were recruited in a cross-sectional study of Alaska Native people. The participants' CYP2A6 activity was measured by both endophenotype and genotype, and their tobacco and procarcinogen exposure biomarker levels were also measured. Smokers, smokeless tobacco users and iqmik users with lower CYP2A6 activity had lower urinary total nicotine equivalents and -1-pyridyl-1-butanol levels. Levels of N-nitrosonornicotine, a TSNA metabolically bioactivated by CYP2A6, were higher in smokers with lower CYP2A6 activities. Light smokers and smokeless tobacco users with lower CYP2A6 activity reduce their tobacco consumption in ways that are not reflected by selfreport indicators. Tobacco users with lower CYP2A6 activity are exposed to lower procarcinogen levels and have lower procarcinogen bioactivation, which is consistent with a lower risk of developing smoking-related cancers. This study demonstrates the importance of CYP2A6 in the regulation of tobacco consumption behaviors, procarcinogen exposure and metabolism in both light smokers and smokeless tobacco users. © The Author 2012. Published by Oxford University Press. All rights reserved.Author's Profile
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