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An investigation of modifying effects of metallothionein single-nucleotide polymorphisms on the association between mercury exposure and biomarker levels.

Authors
Wang-Y; Goodrich-JM; Gillespie-B; Werner-R; Basu-N; Franzblau-A
Source
Environ Health Perspect 2012 Apr; 120(4):530-534
NIOSHTIC No.
20041244
Abstract
BACKGROUND: Recent studies have suggested that several genes that mediate mercury metabolism are polymorphic in humans. OBJECTIVE: We hypothesized that single-nucleotide polymorphisms (SNPs) in metallothionein (MT) genes may underlie interindividual differences in mercury biomarker levels. We studied the potential modifying effects of MT SNPs on mercury exposure-biomarker relationships. METHODS: We measured total mercury in urine and hair samples of 515 dental professionals. We also surveyed occupational and personal exposures to dental amalgam and dietary fish consumption, from which daily methylmercury (MeHg) intake was estimated. Log-transformed urine and hair levels were modeled in multivariable linear regression separately against respective exposure surrogates, and the effect modification of 13 MT SNPs on exposure was investigated. RESULTS: The mean mercury levels in urine (1.06 g/L) and hair (0.51 g/g) were not significantly different from the U.S. general population (0.95 g/L and 0.47 g/g, respectively). The mean estimated daily MeHg intake was 0.084 g/kg/day (range, 0-0.98 g/kg/day), with 25% of study population intakes exceeding the current U.S. Environmental Protection Agency reference dose of 0.1 g/kg/day. Multivariate regression analysis showed that subjects with the MT1M (rs2270836) AA genotype (n = 10) or the MT2A (rs10636) CC genotype (n = 42) had lower urinary mercury levels than did those with the MT1M or MT2A GG genotype (n = 329 and 251, respectively) after controlling for exposure and potential confounders. After controlling for MeHg intake, subjects with MT1A (rs8052394) GA and GG genotypes (n = 24) or the MT1M (rs9936741) TT genotype (n = 459) had lower hair mercury levels than did subjects with MT1A AA (n = 113) or MT1M TC and CC genotypes (n = 15), respectively. CONCLUSION: Our findings suggest that some MT genetic polymorphisms may influence mercury biomarker concentrations at levels of exposure relevant to the general population.
Keywords
Dental-materials; Dentists; Mercury-compounds; Employee-exposure; Employee-health; Environmental-exposure; Work-environment; Humans; Biomarkers; Genes; Nucleotides; Metabolism; Thiones; Metalloproteins; Methyl-compounds; Urinalysis; Analytical-processes; Exposure-limits; Genetic-factors; Genotoxic-effects; Author Keywords: biomarker; gene-environment interaction; mercury; metallothionein; single-nucleotide polymorphism
Contact
A. Franzblau, Room 1835, SPH I, 1415 Washington Heights, University of Michigan School of Public Health, Ann Arbor, MI 48109-2029 USA
CODEN
EVHPAZ
CAS No.
7439-97-6; 22967-92-6
Publication Date
20120401
Document Type
Journal Article
Email Address
afranz@umich.edu
Funding Type
Grant
Fiscal Year
2012
NTIS Accession No.
NTIS Price
Identifying No.
Grant-Number-T42-OH-008455; B08142012
Issue of Publication
4
ISSN
0091-6765
Source Name
Environmental Health Perspectives
State
MI
Performing Organization
University of Michigan, Ann Arbor
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