Does genetic predisposition modify the effect of lifestyle-related factors on DNA methylation?

Abstract

AbstractLifestyle-related phenotypes have been shown to be heritable and associated with DNA methylation. We aimed to investigate whether genetic predisposition to tobacco smoking, alcohol consumption and higher body mass index (BMI) moderates the effect of these phenotypes on blood DNA methylation. We calculated polygenic scores (PGS) to quantify genetic predisposition to these phenotypes using training (N=7,431) and validation (N=4,307) samples. Using paired genetic-methylation data (N=4,307), gene-environment interactions (i.e. PGS x lifestyle) were assessed using linear mixed-effects models with outcomes: 1) methylation at sites found to be strongly associated with smoking (1,061 CpGs), alcohol consumption (459 CpGs) and BMI (85 CpGs), and 2) two epigenetic aging measures, PhenoAge and GrimAge. In the validation sample, PGS explained ∼1.4% (P=1×10−14), ∼0.6% (P=2×10−7) and ∼8.7% (P=7×10−87) of variance in smoking initiation, alcohol consumption and BMI, respectively. Nominally significant interaction effects (P<0.05) were found at 61, 14, and 7 CpGs for smoking, alcohol consumption and BMI, respectively. There was strong evidence that all lifestyle-related phenotypes were positively associated with PhenoAge and GrimAge, except for alcohol consumption with PhenoAge. There was weak evidence that the association of smoking with GrimAge was attenuated in participants genetically predisposed to smoke (interaction term: -0.02, P=0.06) and that the association of alcohol consumption with PhenoAge was attenuated in those genetically predisposed to drink alcohol (interaction term: -0.03, P=0.04). In conclusion, genetic susceptibility to unhealthy lifestyles did not strongly modify their effects on blood DNA methylation. Potential associations were observed for epigenetic aging measures, which should be replicated in additional studies.