Molecular Genetics and Epidemiology of the NAT1 and NAT2 Acetylation Polymorphisms

The focus of this review is the molecular genetics, including consensus NAT1 and NAT2 nomenclature, and cancer epidemiology of the NAT1 and NAT2 acetylation polymorphisms. Two N- acetyltransferase isozymes, NAT1 and NAT2, are polymorphic and catalyze both N- acetylation (usually deactivation) and O...

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Published in:Cancer epidemiology, biomarkers & prevention biomarkers & prevention, 2000-01, Vol.9 (1), p.29-42
Main Authors: HEIN, D. W, DOLL, M. A, FRETLAND, A. J, LEFF, M. A, WEBB, S. J, XIAO, G. H, DEVANABOYINA, U.-S, NANGJU, N. A, YI FENG
Format: Article
Language:English
Subjects:
Acetylation
Arylamine N-Acetyltransferase - genetics
Biological and medical sciences
Biomarkers - analysis
Carcinogenesis, carcinogens and anticarcinogens
Carcinogens - metabolism
Colonic Neoplasms - etiology
Ethnic Groups - genetics
Foods and miscellaneous
Genetic Predisposition to Disease
Genotype
Humans
Incidence
Isoenzymes - genetics
Medical sciences
Molecular Biology
Molecular Epidemiology
Phenotype
Polymorphism, Genetic - genetics
Rectal Neoplasms - etiology
Risk Factors
Terminology as Topic
Tumors
Urinary Bladder Neoplasms - etiology
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Summary:The focus of this review is the molecular genetics, including consensus NAT1 and NAT2 nomenclature, and cancer epidemiology of the NAT1 and NAT2 acetylation polymorphisms. Two N- acetyltransferase isozymes, NAT1 and NAT2, are polymorphic and catalyze both N- acetylation (usually deactivation) and O -acetylation (usually activation) of aromatic and heterocyclic amine carcinogens. Epidemiological studies suggest that the NAT1 and NAT2 acetylation polymorphisms modify risk of developing urinary bladder, colorectal, breast, head and neck, lung, and possibly prostate cancers. Associations between slow NAT2 acetylator genotypes and urinary bladder cancer and between rapid NAT2 acetylator genotypes and colorectal cancer are the most consistently reported. The individual risks associated with NAT1 and/or NAT2 acetylator genotypes are small, but they increase when considered in conjunction with other susceptibility genes and/or aromatic and heterocyclic amine carcinogen exposures. Because of the relatively high frequency of some NAT1 and NAT2 genotypes in the population, the attributable cancer risk may be high. The effect of NAT1 and NAT2 genotype on cancer risk varies with organ site, probably reflecting tissue-specific expression of NAT1 and NAT2. Ethnic differences exist in NAT1 and NAT2 genotype frequencies that may be a factor in cancer incidence. Large-scale molecular epidemiological studies that investigate the role of NAT1 and NAT2 genotypes and/or phenotypes together with other genetic susceptibility gene polymorphisms and biomarkers of carcinogen exposure are necessary to expand our current understanding of the role of NAT1 and NAT2 acetylation polymorphisms in cancer risk.
ISSN:1055-9965
1538-7755