The impact of air pollution on our epigenome: how far is the evidence? (A systematic review)
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Accepted version
Author(s)
Type
Journal Article
Abstract
Purpose of Review
This systematic review evaluated existing evidence linking air pollution exposure in humans to major epigenetic mechanisms: DNA methylation, microRNAs, long noncoding RNAs, and chromatin regulation.
Recent Findings
Eighty-two manuscripts were eligible, most of which were observational (85%), conducted in adults (66%) and based on DNA methylation (79%).
Summary
Most observational studies, except panel, demonstrated modest effects of air pollution on the methylome. Panel and experimental studies revealed a relatively large number of significant methylome alterations, though based on smaller sample sizes. Particulate matter levels were positively associated in several studies with global or LINE-1 hypomethylation, a hallmark of several diseases, and with decondensed chromatin structure. Several air pollution species altered the DNA methylation clock, inducing accelerated biological aging. The causal nature of identified associations is not clear, however, especially that most originate from countries with low air pollution levels. Existing evidence, gaps, and perspectives are highlighted herein.
This systematic review evaluated existing evidence linking air pollution exposure in humans to major epigenetic mechanisms: DNA methylation, microRNAs, long noncoding RNAs, and chromatin regulation.
Recent Findings
Eighty-two manuscripts were eligible, most of which were observational (85%), conducted in adults (66%) and based on DNA methylation (79%).
Summary
Most observational studies, except panel, demonstrated modest effects of air pollution on the methylome. Panel and experimental studies revealed a relatively large number of significant methylome alterations, though based on smaller sample sizes. Particulate matter levels were positively associated in several studies with global or LINE-1 hypomethylation, a hallmark of several diseases, and with decondensed chromatin structure. Several air pollution species altered the DNA methylation clock, inducing accelerated biological aging. The causal nature of identified associations is not clear, however, especially that most originate from countries with low air pollution levels. Existing evidence, gaps, and perspectives are highlighted herein.
Date Issued
2018-12-01
Date Acceptance
2018-09-20
Citation
Current Environmental Health Reports, 2018, 5 (4), pp.544-578
ISSN
2196-5412
Publisher
Springer (part of Springer Nature)
Start Page
544
End Page
578
Journal / Book Title
Current Environmental Health Reports
Volume
5
Issue
4
Copyright Statement
© 2018 Springer Nature Switzerland AG. The final publication is available at Springer via https://dx.doi.org/10.1007/s40572-018-0218-8
Sponsor
Commission of the European Communities
Identifier
https://www.ncbi.nlm.nih.gov/pubmed/30361985
PII: 10.1007/s40572-018-0218-8
Grant Number
308610
Subjects
Air pollution
Chromatin
DNA methylation
Epigenetics
MicroRNAs
Noncoding RNA
Publication Status
Published
Date Publish Online
2018-10-25