An Emerging Role for Epigenetic Dysregulation in Arsenic Toxicity and Carcinogenesis

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Abstract

Background

Exposure to arsenic, an established human carcinogen, through consumption of highly contaminated drinking water is a worldwide public health concern. Several mechanisms by which arsenical compounds induce tumorigenesis have been proposed, including oxidative stress, genotoxic damage, and chromosomal abnormalities. Recent studies have suggested that epigenetic mechanisms may also mediate toxicity and carcinogenicity resulting from arsenic exposure.

Objective

We examined the evidence supporting the roles of the three major epigenetic mechanisms—DNA methylation, histone modification, and microRNA (miRNA) expression—in arsenic toxicity and, in particular, carcinogenicity. We also investigated future research directions necessary to clarify epigenetic and other mechanisms in humans.

Data sources and synthesis

We conducted a PubMed search of arsenic exposure and epigenetic modification through April 2010 and summarized the in vitro and in vivo research findings, from both our group and others, on arsenic-associated epigenetic alteration and its potential role in toxicity and carcinogenicity.

Conclusions

Arsenic exposure has been shown to alter methylation levels of both global DNA and gene promoters; histone acetylation, methylation, and phosphorylation; and miRNA expression, in studies analyzing mainly a limited number of epigenetic end points. Systematic epigenomic studies in human populations exposed to arsenic or in patients with arsenic-associated cancer have not yet been performed. Such studies would help to elucidate the relationship between arsenic exposure, epigenetic dysregulation, and carcinogenesis and are becoming feasible because of recent technological advancements.

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Most cited references 117

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Posttranscriptional regulation of the heterochronic gene lin-14 by lin-4 mediates temporal pattern formation in C. elegans.

Bruce Wightman, Ilho Ha, Gary Ruvkun (1993)

During C. elegans development, the temporal pattern of many cell lineages is specified by graded activity of the heterochronic gene Lin-14. Here we demonstrate that a temporal gradient in Lin-14 protein is generated posttranscriptionally by multiple elements in the lin-14 3'UTR that are regulated by the heterochronic gene Lin-4. The lin-14 3'UTR is both necessary and sufficient to confer lin-4-mediated posttranscriptional temporal regulation. The function of the lin-14 3'UTR is conserved between C. elegans and C. briggsae. Among the conserved sequences are seven elements that are each complementary to the lin-4 RNAs. A reporter gene bearing three of these elements shows partial temporal gradient activity. These data suggest a molecular mechanism for Lin-14p temporal gradient formation: the lin-4 RNAs base pair to sites in the lin-14 3'UTR to form multiple RNA duplexes that down-regulate lin-14 translation.

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The history of cancer epigenetics.

Andrew Feinberg, Benjamin Tycko (2004)

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The diverse functions of histone lysine methylation.

Cyrus Martin, Yi Zhang (2005)

Covalent modifications of histone tails have fundamental roles in chromatin structure and function. One such modification, lysine methylation, has important functions in many biological processes that include heterochromatin formation, X-chromosome inactivation and transcriptional regulation. Here, we summarize recent advances in our understanding of how lysine methylation functions in these diverse biological processes, and raise questions that need to be addressed in the future.

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Author and article information

Journal

Journal ID (nlm-ta): Environ Health Perspect

Title: Environmental Health Perspectives

Publisher: National Institute of Environmental Health Sciences

ISSN (Print): 0091-6765

ISSN (Electronic): 1552-9924

Publication date (Print): January 2011

Publication date (Electronic): 2 August 2010

Volume: 119

Issue: 1

Pages: 11-19

Affiliations

[1 ] Division of Environmental Health Sciences and

[2 ] Arsenic Health Effects Research Program, School of Public Health, University of California–Berkeley, Berkeley, California, USA

Author notes

Address correspondence to X. Ren, School of Public Health, University of California–Berkeley, Hildebrand Hall #211, Berkeley, CA 94720 USA. Telephone: (510) 642-8965. Fax: (510) 642-0427. E-mail: xfr@ 123456berkeley.edu

The authors declare they have no actual or potential competing financial interests.

Article

Publisher ID: ehp-119-11

DOI: 10.1289/ehp.1002114

PMC ID: 3018488

PubMed ID: 20682481

SO-VID: eecb0031-0953-4dc7-b6db-2bd7c1af999e

Copyright © This is an Open Access article: verbatim copying and redistribution of this article are permitted in all media for any purpose, provided this notice is preserved along with the article's original DOI.

An Emerging Role for Epigenetic Dysregulation in Arsenic Toxicity and Carcinogenesis

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Abstract

Background

Objective

Data sources and synthesis

Conclusions

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Annual Reviews Science, Policy, and Public Impact

Most cited references 117

Posttranscriptional regulation of the heterochronic gene lin-14 by lin-4 mediates temporal pattern formation in C. elegans.

The history of cancer epigenetics.

The diverse functions of histone lysine methylation.

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