Warning: Undefined array key "mm" in /www/wwwroot/www.ai-bt.com/si.php on line 10 Deprecated: trim(): Passing null to parameter #1 ($string) of type string is deprecated in /www/wwwroot/www.ai-bt.com/si.php on line 10 Environmental Deflection: The Impact of Toxicant Exposures on the Aging Epigenome.

Literature DB >> 28087834

Environmental Deflection: The Impact of Toxicant Exposures on the Aging Epigenome.

Joseph Kochmanski¹, Luke Montrose¹, Jaclyn M Goodrich¹, Dana C Dolinoy^1,2.

Abstract

Epigenetic drift and age-related methylation have both been used in the literature to describe changes in DNA methylation that occurs with aging. However, ambiguity remains regarding the exact definition of both of these terms, and neither of these fields of study explicitly considers the impact of environmental factors on the aging epigenome. Recent twin studies have demonstrated longitudinal, pair-specific discordance in DNA methylation patterns, suggesting an effect of the environment on age-related methylation and/or epigenetic drift. Supporting this idea, other new reports have shown clear environment- and toxicant-mediated shifts away from the baseline rates of age-related methylation and epigenetic drift within an organism, a process we now term "environmental deflection." By defining and delineating environmental deflection, this contemporary review aims to highlight the effects of specific toxicological factors on the rate of DNA methylation changes that occur over the life course. In an effort to inform future epigenetics-based toxicology studies, a field of research now classified as toxicoepigenetics, we provide clear definitions and examples of "epigenetic drift" and "age-related methylation," summarize the recent evidence for environmental deflection of the aging epigenome, and discuss the potential functional effects of environmental deflection.

Keywords: (Reproductive & Developmental Toxicology; aging); developmental toxicity); environmental (Environmental Toxicology; exposure; post-natal (Reproductive & Developmental Toxicology).; prenatal (Reproductive & Developmental Toxicology

Mesh：

Substances：
Environmental Pollutants

Year: 2017 PMID： 28087834 PMCID： PMC6256948 DOI： 10.1093/toxsci/kfx005

Source DB: PubMed Journal: Toxicol Sci ISSN： 1096-0929 Impact factor: 4.849

90 in total

1. Individual variation and longitudinal pattern of genome-wide DNA methylation from birth to the first two years of life.

Authors: Deli Wang; Xin Liu; Ying Zhou; Hehuang Xie; Xiumei Hong; Hui-Ju Tsai; Guoying Wang; Rong Liu; Xiaobin Wang
Journal: Epigenetics Date: 2012-06-01 Impact factor: 4.528

Review 2. Mechanism and function of oxidative reversal of DNA and RNA methylation.

Authors: Li Shen; Chun-Xiao Song; Chuan He; Yi Zhang
Journal: Annu Rev Biochem Date: 2014 Impact factor: 23.643

3. Overweight and CpG methylation of the Pomc promoter in offspring of high-fat-diet-fed dams are not "reprogrammed" by regular chow diet in rats.

Authors: Asaf Marco; Tatiana Kisliouk; Tzlil Tabachnik; Noam Meiri; Aron Weller
Journal: FASEB J Date: 2014-06-13 Impact factor: 5.191

Review 4. 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

5. Epigenome-wide scans identify differentially methylated regions for age and age-related phenotypes in a healthy ageing population.

Authors: Jordana T Bell; Pei-Chien Tsai; Tsun-Po Yang; Ruth Pidsley; James Nisbet; Daniel Glass; Massimo Mangino; Guangju Zhai; Feng Zhang; Ana Valdes; So-Youn Shin; Emma L Dempster; Robin M Murray; Elin Grundberg; Asa K Hedman; Alexandra Nica; Kerrin S Small; Emmanouil T Dermitzakis; Mark I McCarthy; Jonathan Mill; Tim D Spector; Panos Deloukas
Journal: PLoS Genet Date: 2012-04-19 Impact factor: 5.917

6. 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

7. Maternal ethanol consumption alters the epigenotype and the phenotype of offspring in a mouse model.

Authors: Nina Kaminen-Ahola; Arttu Ahola; Murat Maga; Kylie-Ann Mallitt; Paul Fahey; Timothy C Cox; Emma Whitelaw; Suyinn Chong
Journal: PLoS Genet Date: 2010-01-15 Impact factor: 5.917

8. An integrative network algorithm identifies age-associated differential methylation interactome hotspots targeting stem-cell differentiation pathways.

Authors: James West; Stephan Beck; Xiangdong Wang; Andrew E Teschendorff
Journal: Sci Rep Date: 2013 Impact factor: 4.379

9. Lifetime stress accelerates epigenetic aging in an urban, African American cohort: relevance of glucocorticoid signaling.

Authors: Anthony S Zannas; Janine Arloth; Tania Carrillo-Roa; Stella Iurato; Simone Röh; Kerry J Ressler; Charles B Nemeroff; Alicia K Smith; Bekh Bradley; Christine Heim; Andreas Menke; Jennifer F Lange; Tanja Brückl; Marcus Ising; Naomi R Wray; Angelika Erhardt; Elisabeth B Binder; Divya Mehta
Journal: Genome Biol Date: 2015-12-17 Impact factor: 13.583

10. Genetic and environmental exposures constrain epigenetic drift over the human life course.

Authors: Sonia Shah; Allan F McRae; Riccardo E Marioni; Sarah E Harris; Jude Gibson; Anjali K Henders; Paul Redmond; Simon R Cox; Alison Pattie; Janie Corley; Lee Murphy; Nicholas G Martin; Grant W Montgomery; John M Starr; Naomi R Wray; Ian J Deary; Peter M Visscher
Journal: Genome Res Date: 2014-09-23 Impact factor: 9.043

10 in total

Review 1. The role of environmental exposures and the epigenome in health and disease.

Authors: Bambarendage P U Perera; Christopher Faulk; Laurie K Svoboda; Jaclyn M Goodrich; Dana C Dolinoy
Journal: Environ Mol Mutagen Date: 2019-06-20 Impact factor: 3.216

2. Age-related epigenome-wide DNA methylation and hydroxymethylation in longitudinal mouse blood.

Authors: Joseph Kochmanski; Elizabeth H Marchlewicz; Raymond G Cavalcante; Maureen A Sartor; Dana C Dolinoy
Journal: Epigenetics Date: 2018-08-23 Impact factor: 4.528

3. Perinatal DEHP exposure induces sex- and tissue-specific DNA methylation changes in both juvenile and adult mice.

Authors: Siyu Liu; Kai Wang; Laurie K Svoboda; Christine A Rygiel; Kari Neier; Tamara R Jones; Raymond G Cavalcante; Justin A Colacino; Dana C Dolinoy; Maureen A Sartor
Journal: Environ Epigenet Date: 2021-05-10

4. Aerobic exercise and DNA methylation in postmenopausal women: An ancillary analysis of the Alberta Physical Activity and Breast Cancer Prevention (ALPHA) Trial.

Authors: Devon J Boyne; Will D King; Darren R Brenner; John B McIntyre; Kerry S Courneya; Christine M Friedenreich
Journal: PLoS One Date: 2018-06-28 Impact factor: 3.240

5. Early Life Exposure in Mexico to ENvironmental Toxicants (ELEMENT) Project.

Authors: Wei Perng; Marcela Tamayo-Ortiz; Lu Tang; Brisa N Sánchez; Alejandra Cantoral; John D Meeker; Dana C Dolinoy; Elizabeth F Roberts; Esperanza Angeles Martinez-Mier; Hector Lamadrid-Figueroa; Peter X K Song; Adrienne S Ettinger; Robert Wright; Manish Arora; Lourdes Schnaas; Deborah J Watkins; Jaclyn M Goodrich; Robin C Garcia; Maritsa Solano-Gonzalez; Luis F Bautista-Arredondo; Adriana Mercado-Garcia; Howard Hu; Mauricio Hernandez-Avila; Martha Maria Tellez-Rojo; Karen E Peterson
Journal: BMJ Open Date: 2019-08-26 Impact factor: 2.692

6. Longitudinal effects of developmental bisphenol A, variable diet, and physical activity on age-related methylation in blood.

Authors: Joseph Kochmanski; Elizabeth H Marchlewicz; Dana C Dolinoy
Journal: Environ Epigenet Date: 2018-07-19