Mitochondrial DNA Methylation in Placental Tissue: a Proof of Concept Study by Means of Prenatal Environmental Stressors

Overview

Journal Epigenetics

Specialty Genetics

Date 2020 Jul 14

PMID 32657220

Citations 20

Authors

Stijn Vos

Tim S Nawrot

Dries S Martens

Hyang-Min Byun

Bram G Janssen

Affiliations

Soon will be listed here.

Abstract

While previous studies have demonstrated that prenatal exposure to environmental stressors is associated with mitochondrial DNA (mtDNA) methylation, more recent investigations are questioning the accuracy of the methylation assessment and its biological relevance. In this study, we investigated placental mtDNA methylation while accounting for methodological issues such as nuclear contamination, bisulphite conversion, and PCR bias. From the ENVIRAGE birth cohort, we selected three groups of participants (n = 20/group). One group with mothers who smoked during pregnancy (average 13.2 cig/day), one group with high air pollutant exposure (PM: 16.0 ± 1.4 µg/m, black carbon: 1.8 ± 0.3 µg/m) and one control group (non-smokers, PM: 10.6 ± 1.7 µg/m, black carbon: 0.9 ± 0.1 µg/m) with low air pollutant exposure. DNA methylation levels were quantified in two regions of the displacement loop control region ( and ) by bisulphite pyrosequencing. Additionally, we measured DNA methylation on nuclear genes involved in mitochondrial maintenance (, and ) and assessed mtDNA content using qPCR. Absolute methylation levels were higher for mothers that smoked extensively (+0.36%, 95% CI: 0.06% to 0.66%), and for mothers that were highly exposed to air pollutants (+0.47%, 95% CI: 0.20% to 0.73%). The relevance of our findings is further supported, as methylation levels were correlated with placental mtDNA content (r = -0.40, p = 0.002) and associated with birth weight (-106.98 g, 95% CI: -209.60 g to -4.36 g for an IQR increase in methylation). Most notably, our data demonstrates relevant levels of mtDNA methylation in placenta tissue, with significant associations between prenatal exposure to environmental stressors and methylation.

Citing Articles

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