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Comparative Study
. 2021 Feb;45(2):318-328.
doi: 10.1111/acer.14528. Epub 2020 Dec 30.

Associations of Alcohol Consumption With Epigenome-Wide DNA Methylation and Epigenetic Age Acceleration: Individual-Level and Co-twin Comparison Analyses

Mallory Stephenson  1 Sailalitha Bollepalli  2 Emma Cazaly  2 Jessica E Salvatore  1   3 Peter Barr  1 Richard J Rose  4 Danielle Dick  1   5 Jaakko Kaprio  2   6 Miina Ollikainen  2   6
Affiliations
Comparative Study

Associations of Alcohol Consumption With Epigenome-Wide DNA Methylation and Epigenetic Age Acceleration: Individual-Level and Co-twin Comparison Analyses

Mallory Stephenson et al. Alcohol Clin Exp Res. 2021 Feb.

Abstract

Background: DNA methylation may play a role in the progression from normative to problematic drinking and underlie adverse health outcomes associated with alcohol misuse. We examined the association between alcohol consumption and DNA methylation patterns using 3 approaches: a conventional epigenome-wide association study (EWAS); a co-twin comparison design, which controls for genetic and environmental influences that twins share; and a regression of age acceleration, defined as a discrepancy between chronological age and DNA methylation age, on alcohol consumption.

Methods: Participants came from the Finnish Twin Cohorts (FinnTwin12/FinnTwin16; N = 1,004; 55% female; average age = 23 years). Individuals reported the number of alcoholic beverages consumed in the past week, and epigenome-wide DNA methylation was assessed in whole blood using the Infinium HumanMethylation450 BeadChip.

Results: In the EWAS, alcohol consumption was significantly related to methylation at 24 CpG sites. When evaluating whether differences between twin siblings (185 monozygotic pairs) in alcohol consumption predicted differences in DNA methylation, co-twin comparisons replicated 4 CpG sites from the EWAS and identified 23 additional sites. However, when we examined qualitative differences in drinking patterns between twins (heavy drinker vs. light drinker/abstainer or moderate drinker vs. abstainer; 44 pairs), methylation patterns did not significantly differ within twin pairs. Finally, individuals who reported higher alcohol consumption also exhibited greater age acceleration, though results were no longer significant after controlling for genetic and environmental influences shared by co-twins.

Conclusions: Our analyses offer insight into the associations between epigenetic variation and levels of alcohol consumption in young adulthood.

Keywords: Age Acceleration; Alcohol; Co-twin Comparisons; FinnTwin12; epigenome-wide association study.

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Figures

Figure 1.
Figure 1.. Scatter plots of 24 significant CpGs associated with alcohol consumption in an EWAS of young adults.
Figure 1 provides a visual representation of CpG sites significantly associated with alcohol consumption in the EWAS. Each plot represents a single CpG site with DNA methylation shown as beta (proportion of methylation at that site) on the y-axis and alcohol consumption shown as drinks per week on the x-axis.
Figure 2.
Figure 2.. Scatter plots of 27 significant CpGs associated with alcohol consumption in a within-pair model.
Figure 2 provides a visual representation of CpG sites significantly associated with alcohol consumption when examining differences within MZ twin pairs. Each plot represents a single CpG site with DNA methylation shown as beta (proportion of methylation at that site) on the y-axis and alcohol consumption shown as drinks per week on the x-axis.
See this image and copyright information in PMC

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