Literature DB >> 24154821

Differential methylation of the arsenic (III) methyltransferase promoter according to arsenic exposure.

Matthew O Gribble1, Wan-Yee Tang, Yan Shang, Jonathan Pollak, Jason G Umans, Kevin A Francesconi, Walter Goessler, Ellen K Silbergeld, Eliseo Guallar, Shelley A Cole, M Daniele Fallin, Ana Navas-Acien.   

Abstract

Inorganic arsenic is methylated in the body by arsenic (III) methyltransferase (AS3MT). Arsenic methylation is thought to play a role in arsenic-related epigenetic phenomena, including aberrant DNA and histone methylation. However, it is unclear whether the promoter of the AS3MT gene, which codes for AS3MT, is differentially methylated as a function of arsenic exposure. In this study, we evaluated AS3MT promoter methylation according to exposure, assessed by urinary arsenic excretion in a stratified random sample of 48 participants from the Strong Heart Study who had urine arsenic measured at baseline and DNA available from 1989 to 1991 and 1998-1999. For this study, all data are from the 1989-1991 visit. We measured AS3MT promoter methylation at its 48 CpG loci by bisulphite sequencing. We compared mean  % methylation at each CpG locus by arsenic exposure group using linear regression adjusted for study centre, age and sex. A hypomethylated region in the AS3MT promoter was associated with higher arsenic exposure. In vitro, arsenic induced AS3MT promoter hypomethylation, and it increased AS3MT expression in human peripheral blood mononuclear cells. These findings may suggest that arsenic exposure influences the epigenetic regulation of a major arsenic metabolism gene.

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Year:  2013        PMID: 24154821      PMCID: PMC3946764          DOI: 10.1007/s00204-013-1146-x

Source DB:  PubMed          Journal:  Arch Toxicol        ISSN: 0340-5761            Impact factor:   5.153


  63 in total

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Journal:  IARC Monogr Eval Carcinog Risks Hum       Date:  2004

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Authors:  David J Thomas; Jiaxin Li; Stephen B Waters; Weibing Xing; Blakely M Adair; Zuzana Drobna; Vicenta Devesa; Miroslav Styblo
Journal:  Exp Biol Med (Maywood)       Date:  2007-01

Review 3.  Environmental epigenetics in metal exposure.

Authors:  Ricardo Martinez-Zamudio; Hyo Chol Ha
Journal:  Epigenetics       Date:  2011-07-01       Impact factor: 4.528

4.  [Effects of inorganic arsenicals on the methylation of p16 gene CpG islands and the expression of p16 gene in BEP2D cells].

Authors:  G Lu; Q Cai; W Zhang
Journal:  Zhonghua Yi Xue Za Zhi       Date:  2001-10-25

5.  Arsenic alters cytosine methylation patterns of the promoter of the tumor suppressor gene p53 in human lung cells: a model for a mechanism of carcinogenesis.

Authors:  M J Mass; L Wang
Journal:  Mutat Res       Date:  1997-06       Impact factor: 2.433

6.  Long term low-dose arsenic exposure induces loss of DNA methylation.

Authors:  John F Reichard; Michael Schnekenburger; Alvaro Puga
Journal:  Biochem Biophys Res Commun       Date:  2006-11-10       Impact factor: 3.575

Review 7.  Effects of arsenic exposure on DNA methylation and epigenetic gene regulation.

Authors:  John F Reichard; Alvaro Puga
Journal:  Epigenomics       Date:  2010-02       Impact factor: 4.778

8.  Arsenic trioxide inhibits DNA methyltransferase and restores methylation-silenced genes in human liver cancer cells.

Authors:  Xing Cui; Toshifumi Wakai; Yoshio Shirai; Naoyuki Yokoyama; Katsuyoshi Hatakeyama; Seishiro Hirano
Journal:  Hum Pathol       Date:  2006-03       Impact factor: 3.466

Review 9.  Arsenic and cardiovascular disease.

Authors:  J Christopher States; Sanjay Srivastava; Yu Chen; Aaron Barchowsky
Journal:  Toxicol Sci       Date:  2008-11-17       Impact factor: 4.849

10.  Urinary benzene biomarkers and DNA methylation in Bulgarian petrochemical workers: study findings and comparison of linear and beta regression models.

Authors:  Wei Jie Seow; Angela Cecilia Pesatori; Emmanuel Dimont; Peter B Farmer; Benedetta Albetti; Adrienne S Ettinger; Valentina Bollati; Claudia Bolognesi; Paola Roggieri; Teodor I Panev; Tzveta Georgieva; Domenico Franco Merlo; Pier Alberto Bertazzi; Andrea A Baccarelli
Journal:  PLoS One       Date:  2012-12-05       Impact factor: 3.240
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  11 in total

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Journal:  Environ Int       Date:  2018-12-13       Impact factor: 9.621

2.  DNA methylation in cord blood as mediator of the association between prenatal arsenic exposure and gestational age.

Authors:  Anne K Bozack; Andres Cardenas; Quazi Quamruzzaman; Mahmuder Rahman; Golam Mostofa; David C Christiani; Molly L Kile
Journal:  Epigenetics       Date:  2018-10-11       Impact factor: 4.528

3.  Association Between Variants in Arsenic (+3 Oxidation State) Methyltranserase (AS3MT) and Urinary Metabolites of Inorganic Arsenic: Role of Exposure Level.

Authors:  Xiaofan Xu; Zuzana Drobná; V Saroja Voruganti; Keri Barron; Carmen González-Horta; Blanca Sánchez-Ramírez; Lourdes Ballinas-Casarrubias; Roberto Hernández Cerón; Damián Viniegra Morales; Francisco A Baeza Terrazas; María C Ishida; Daniela S Gutiérrez-Torres; R Jesse Saunders; Jamie Crandell; Rebecca C Fry; Dana Loomis; Gonzalo G García-Vargas; Luz M Del Razo; Miroslav Stýblo; Michelle A Mendez
Journal:  Toxicol Sci       Date:  2016-06-30       Impact factor: 4.849

4.  Prenatal arsenic exposure and the epigenome: identifying sites of 5-methylcytosine alterations that predict functional changes in gene expression in newborn cord blood and subsequent birth outcomes.

Authors:  Daniel Rojas; Julia E Rager; Lisa Smeester; Kathryn A Bailey; Zuzana Drobná; Marisela Rubio-Andrade; Miroslav Stýblo; Gonzalo García-Vargas; Rebecca C Fry
Journal:  Toxicol Sci       Date:  2014-10-10       Impact factor: 4.849

5.  Regulation of arsenic methylation: identification of the transcriptional region of the human AS3MT gene.

Authors:  Kunie Yoshinaga-Sakurai; Toby G Rossman; Barry P Rosen
Journal:  Cell Biol Toxicol       Date:  2021-05-06       Impact factor: 6.819

Review 6.  Arsenic-Associated Changes to the Epigenome: What Are the Functional Consequences?

Authors:  Kathryn A Bailey; Rebecca C Fry
Journal:  Curr Environ Health Rep       Date:  2014-01-19

7.  Gene-specific differential DNA methylation and chronic arsenic exposure in an epigenome-wide association study of adults in Bangladesh.

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8.  Association of global DNA methylation and global DNA hydroxymethylation with metals and other exposures in human blood DNA samples.

Authors:  Maria Tellez-Plaza; Wan-Yee Tang; Yan Shang; Jason G Umans; Kevin A Francesconi; Walter Goessler; Marta Ledesma; Montserrat Leon; Martin Laclaustra; Jonathan Pollak; Eliseo Guallar; Shelley A Cole; M Dani Fallin; Ana Navas-Acien
Journal:  Environ Health Perspect       Date:  2014-04-25       Impact factor: 9.031

9.  Association of Cardiometabolic Genes with Arsenic Metabolism Biomarkers in American Indian Communities: The Strong Heart Family Study (SHFS).

Authors:  Poojitha Balakrishnan; Dhananjay Vaidya; Nora Franceschini; V Saroja Voruganti; Matthew O Gribble; Karin Haack; Sandra Laston; Jason G Umans; Kevin A Francesconi; Walter Goessler; Kari E North; Elisa Lee; Joseph Yracheta; Lyle G Best; Jean W MacCluer; Jack Kent; Shelley A Cole; Ana Navas-Acien
Journal:  Environ Health Perspect       Date:  2016-06-28       Impact factor: 9.031

Review 10.  Arsenic and Environmental Health: State of the Science and Future Research Opportunities.

Authors:  Danielle J Carlin; Marisa F Naujokas; Karen D Bradham; John Cowden; Michelle Heacock; Heather F Henry; Janice S Lee; David J Thomas; Claudia Thompson; Erik J Tokar; Michael P Waalkes; Linda S Birnbaum; William A Suk
Journal:  Environ Health Perspect       Date:  2015-11-20       Impact factor: 9.031
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