Factors Affecting Differential Methylation of DNA Promoters in Arsenic-Exposed Populations

The exposure/biotransformation of inorganic arsenic (iAs) may perturb DNA methylation patterns and subsequently influence disease risk by altering the expression of key genes. Interindividual variation in patterns of DNA methylation can be explained by the influence of environmental, genetic, and st...

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Bibliographic Details
Published in:Biological trace element research 2019-06, Vol.189 (2), p.437-446
Main Authors: Zhang, Yanting, Li, Yuanyuan, Luo, Lanrong, He, Qian, Gao, Yanhui, Feng, Hongqi, Zhao, Lijun, Wei, Wei, Fu, Songbo, Sun, Dianjun
Format: Article
Language:English
Subjects:
Adolescent
Adult
Aged
Aged, 80 and over
Arsenic
Arsenic - toxicity
Arsenicals
Atomic absorption analysis
Atomic absorption spectrophotometry
Biochemistry
Biomedical and Life Sciences
Biotechnology
Biotransformation
Bisulfite
CDH1 gene
Deoxyribonucleic acid
Detection
DNA
DNA (Cytosine-5-)-Methyltransferase 1 - genetics
DNA (Cytosine-5-)-Methyltransferases - genetics
DNA methylation
DNA Methylation - drug effects
DNA Methylation - genetics
DNA Methyltransferase 3B
DNA sequencing
Drinking water
E-cadherin
Environmental Exposure - adverse effects
Environmental factors
Female
Gene expression
Gene polymorphism
Genotype
Genotypes
Genotyping
Glutathione transferase
Health risks
Humans
Life Sciences
Male
Markers
Middle Aged
Nucleotides
Nutrition
Oncology
Pathogenesis
Polymorphism
Populations
Pretreatment
Promoter Regions, Genetic - drug effects
Promoter Regions, Genetic - genetics
Promoters
Single-nucleotide polymorphism
Speciation
Spectral analysis
Spectrophotometers
Spectrophotometry
Spectrophotometry, Atomic
Stochasticity
Urine
Water Pollutants, Chemical
Young Adult
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Summary:The exposure/biotransformation of inorganic arsenic (iAs) may perturb DNA methylation patterns and subsequently influence disease risk by altering the expression of key genes. Interindividual variation in patterns of DNA methylation can be explained by the influence of environmental, genetic, and stochastic factors. Here, we examined promoter DNA methylation levels with urinary arsenical concentrations and investigated the genetic and nongenetic determinants of DNA methylation in 105 samples collected from populations in Shanxi Province, China, with high levels of arsenic in drinking water. Arsenic concentrations in water were determined by atomic absorption spectrophotometry (AA-6800, Shimadzu Co., Kyoto, Japan). Urine samples were measured using an atomic absorption spectrophotometer with an arsenic speciation pretreatment system (ASA-2sp, Shimadzu Co. Kyoto, Japan) for detection. Gene-specific (CDH1, EREG, ERCC2, GSTP1, and MGMT) DNA methylation was quantified by targeted bisulfite sequencing. Single-nucleotide polymorphism (SNP) genotyping was performed using a custom-by-design 2 × 48-Plex SNPscan™ Kit. These results revealed CDH1 with promoter DNA methylation levels associated with iAs. After the exclusion of confounding factors, age was correlated with increased methylation of the CDH1 gene. The susceptibility of the CDH1 and GSTP1 gene promoters to methylation was increased in individuals carrying the DNMT3B (SNP rs2424932) GA genotype, and the susceptibility of the CDH1 gene promoters to methylation was increased in individuals carrying the DNMT3B (SNP rs6087990) TC genotype. Although the above results must still be replicated in larger samples, the findings improve our understanding of the pathogenesis of arsenic and may highlight certain DNA methylation markers as attractive surrogate markers for prevention research.
ISSN:0163-4984
1559-0720
DOI:10.1007/s12011-018-1504-x