AI Article Synopsis
- This study focuses on how pesticide exposure affects gene expression changes through epigenetic mechanisms without altering the DNA sequence, highlighting the role of factors like DNA methylation.
- The research involved 100 workers exposed to pesticides, divided into rural sprayers and urban researchers, to investigate the link between specific genetic polymorphisms and global gene DNA methylation.
- Findings indicate that urban workers showed different methylation patterns linked to certain gene variants, suggesting that urban environments may pose additional risks for epigenetic changes related to pesticide exposure due to lifestyle and environmental factors.
Article Abstract
Background Epigenetic represents a study of occurred heritable gene expression changes without changing in the DNA sequence. It includes DNA methylation and miRNA expression that attract increasing attention as potential links between the genetic and environmental determinants of health and disease. Pesticide exposure is associated with adverse health effects and DNA methylation due to oxidative stress induced following its exposure. This study aimed to define the association of genetic polymorphisms of XRCC1, PON1, GSTP1 and GST genes with global genes DNA methylation in urban and rural occupationally pesticides exposed workers. Methods This study included 100 pesticides exposed workers; 50 rural sprayers (RE) and 50 urban researchers (UE). Controls included equal numbers. DNA methylation of global genes was evaluated by pyrosequencing assay. XRCC1, PON1 and GSTP1 genotyping were assessed by PCR-RFLP, and GST M1 and T1 were performed by PCR. Results The results of this study revealed that most genotypes in XRCC1, PON1, GSTP1 and GST genes were associated with LINE-1 hypomethylation among UE group. However, heterozygote genotypes (Gln-Arg and Ile-Val) in XRCC1 and GSTP1 genes, respectively, were associated with LINE-1 hypermethylation among UE compared with other corresponding genotypes. Only GSTT1 polymorphism recorded a significant change in percent methylation of Alu elements among urban and rural groups. Conclusion Urbanization could play an additional risk for epigenetic changes associated with pesticide exposure, and that could be attributed to the quality of life including their dietary habits, working and living in closed areas, and their exposure to extra pollutions emitted from urbanization sources.
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| http://dx.doi.org/10.1515/jcim-2019-0166 | DOI Listing |
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