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Variability in PAH-DNA Adduct Measurements in Peripheral Mononuclear Cells: Implications for Quantitative Cancer Risk Assessment
Authors:Christopher Dickey  Regina M. Santella  Dale Hattis  Deliang Tang  Yanzhi Hsu  Tom Cooper  Tie-Lan Young  Frederica P. Perera
Affiliation:Division of Environmental Health Sciences, School of Public Health, Columbia University New York, New York 10032.;Institute of Human Nutrition, Columbia University, New York, New York 10032.;CENTED, Clark University, Worcester, Massachusetts 01610.;Division of Biostatistics, School of Public Health, Columbia University, New York, New York 10032.;New York State Psychiatric Institute, New York, New York 10032.
Abstract:Biomarkers such as DNA adducts have significant potential to improve quantitative risk assessment by characterizing individual differences in metabolism of genotoxins and DNA repair and accounting for some of the factors that could affect interindividual variation in cancer risk. Inherent uncertainty in laboratory measurements and within-person variability of DNA adduct levels over time are putatively unrelated to cancer risk and should be subtracted from observed variation to better estimate interindividual variability of response to carcinogen exposure. A total of 41 volunteers, both smokers and nonsmokers, were asked to provide a peripheral blood sample every 3 weeks for several months in order to specifically assess intraindividual variability of polycyclic aromatic hydrocarbon (PAH)-DNA adduct levels. The intraindividual variance in PAH-DNA adduct levels, together with measurement uncertainty (laboratory variability and unaccounted for differences in exposure), constituted roughly 30% of the overall variance. An estimated 70% of the total variance was contributed by interindividual variability and is probably representative of the true biologic variability of response to carcinogenic exposure in lymphocytes. The estimated interindividual variability in DNA damage after subtracting intraindividual variability and measurement uncertainty was 24-fold. Inter-individual variance was higher (52-fold) in persons who constitutively lack the Glutathione S-Transferase M1 (GSTM1) gene which is important in the detoxification pathway of PAH. Risk assessment models that do not consider the variability of susceptibility to DNA damage following carcinogen exposure may underestimate risks to the general population, especially for those people who are most vulnerable.
Keywords:PAH-DNA adducts    variability    uncertainty    risk assessment
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