Pharmacogenetics of Nicotine Metabolism in Twins: Methods and Procedures

Gary E. Swan; Neal L. Benowitz; Peyton Jacob III; Christina N. Lessov; Rachel F. Tyndale; Kirk Wilhelmsen; Ruth E. Krasnow; Mary R. McElroy; Sharyn E. Moore; Michelle Wambach

doi:10.1375/twin.7.5.435

Abstract

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This article describes a pharmacogenetic investigation of nicotine metabolism in twins. One hundred and thirty-nine twin pairs (110 monozygotic and 29 dizygotic) were recruited and assessed for smoking status, zygosity, and health conditions known or suspected to affect drug metabolism. Participants underwent a 30-minute infusion of stable isotope-labeled nicotine and its major metabolite, cotinine, followed by an 8-hour in-hospital stay. Blood and urine samples were taken at regular intervals for analysis of nicotine, cotinine, and metabolites by gas chromatography–mass spectrometry or liquid chromatography–mass spectrometry and subsequent characterization of pharmacokinetic phenotypes. DNA was genotyped to confirm zygosity and for variation in the primary gene involved in nicotine metabolism, CYP2A6. Univariate and multivariate biometric analyses planned for the future will determine genetic and environmental influences on each pharmacokinetic measure individually and in combination with each other, and in the presence and absence of covariates, including measured genotype. When the analyses are completed, this study will result in a more complete characterization of the impact of genetic and environmental influences on nicotine and cotinine metabolic pathways than has heretofore been reported. The approach taken, with its use of a quantitative model of nicotine metabolism, highly refined metabolic phenotypes, measured genotype, and advanced tools for biometric genetic analysis, provides a model for the use of twins in next-generation studies of complex drug-metabolism phenotypes.

Crossref Citations

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Swan, Gary E. Benowitz, Neal L. Lessov, Christina N. Jacob, Peyton Tyndale, Rachel F. and Wilhelmsen, Kirk 2005. Nicotine metabolism: the impact of CYP2A6 on estimates of additive genetic influence. Pharmacogenetics and Genomics, Vol. 15, Issue. 2, p. 115.

Al Koudsi, Nael Mwenifumbo, Jill C. Sellers, Edward M. Benowitz, Neal L. Swan, Gary E. and Tyndale, Rachel F. 2006. Characterization of the novel CYP2A6*21 allele using in vivo nicotine kinetics. European Journal of Clinical Pharmacology, Vol. 62, Issue. 6, p. 481.

Malaiyandi, Viba Goodz, Shari D. Sellers, Edward M. and Tyndale, Rachel F. 2006. CYP2A6 Genotype, Phenotype, and the Use of Nicotine Metabolites as Biomarkers during Ad libitum Smoking. Cancer Epidemiology, Biomarkers & Prevention, Vol. 15, Issue. 10, p. 1812.

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Wu, Xifeng Spitz, Margaret R. Amos, Christopher I. Lin, Jie Shao, Lina Gu, Jian de Andrade, Mariza Benowitz, Neal L. Shields, Peter G. and Swan, Gary E. 2006. Mutagen Sensitivity Has High Heritability: Evidence from a Twin Study. Cancer Research, Vol. 66, Issue. 12, p. 5993.

Ring, Huijun Z. Valdes, Ana M. Nishita, Denise M. Prasad, Suman Jacob, Peyton Tyndale, Rachel F. Swan, Gary E. and Benowitz, Neal L. 2007. Gene–gene interactions between CYP2B6 and CYP2A6 in nicotine metabolism. Pharmacogenetics and Genomics, Vol. 17, Issue. 12, p. 1007.

Lin, Jie Swan, Gary E. Shields, Peter G. Benowitz, Neal L. Gu, Jian Amos, Christopher I. de Andrade, Mariza Spitz, Margaret R. and Wu, Xifeng 2007. Mutagen Sensitivity and Genetic Variants in Nucleotide Excision Repair Pathway: Genotype-Phenotype Correlation. Cancer Epidemiology, Biomarkers & Prevention, Vol. 16, Issue. 10, p. 2065.

Swan, Gary E. Lessov-Schlaggar, Christina N. Krasnow, Ruth E. Wilhelmsen, Kirk C. Jacob, Peyton and Benowitz, Neal L. 2007. Genetic and Environmental Sources of Variation in Heart Rate Response to Infused Nicotine in Twins. Cancer Epidemiology, Biomarkers & Prevention, Vol. 16, Issue. 6, p. 1057.

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Runyon, R. Scott Cachola, Leslie M. Rajeshuni, Nitya Hunter, Tessa Garcia, Marco Ahn, Regina Lurmann, Fred Krasnow, Ruth Jack, Lisa M. Miller, Rachel L. Swan, Gary E. Kohli, Arunima Jacobson, Amanda C. Nadeau, Kari C. and Ballestar, Esteban 2012. Asthma Discordance in Twins Is Linked to Epigenetic Modifications of T Cells. PLoS ONE, Vol. 7, Issue. 11, p. e48796.

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Pharmacogenetics of Nicotine Metabolism in Twins: Methods and Procedures

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