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Publication - Professor Tom Gaunt

    Maternal eating disorders affect offspring cord-blood DNA methylation:

    a prospective study

    Citation

    Kazmi, N, Gaunt, T, Relton, C & Micali, N, 2017, ‘Maternal eating disorders affect offspring cord-blood DNA methylation: a prospective study’. Clinical Epigenetics.

    Abstract

    Background

    Eating disorders (ED) are chronic psychiatric disorders, common amongst women of reproductive age. ED in pregnancy are associated with poor nutrition and abnormal intrauterine growth. Increasing evidence also shows offspring of women with ED have adverse developmental and birth outcomes. We sought to carry out the first study investigating DNA methylation in offspring of women with ED. We compared cord blood DNA methylation in offspring of women with active ED (n = 21), past ED (n = 43) and age- and social class-matched controls (n = 126) as part of the Avon Longitudinal Study of Parents and Children.

    Results

    Offspring of women with both active and past ED had lower whole-genome methylation compared to controls (active ED 49.1% (95% confidence intervals 50.5–47.7%), past ED 49.2% (95% CI 50.7–47.7.0%), controls 52.4% (95% CI 53.0%–51.0%)). Amongst offspring of ED women, those born to women with restrictive-type and purging-type ED had lower methylation levels compared to those of controls. Offspring of women with an active restrictive ED in pregnancy had lower whole-genome methylation compared to offspring of women with past restrictive ED. We observed decreased methylation at the DHCR24 locus in offspring of women with active pregnancy ED (effect size (ES) = − 0.124, p = 6.94 × 10−8) and increased methylation at the LGALS2 locus in offspring of women with past ED (ES = 0.07, p = 3.74 × 10−7) compared to controls.

    Conclusions

    Maternal active and past ED are associated with differences in offspring whole-genome methylation. Our results show altered DNA methylation in loci relevant to metabolism; these might be biomarkers of disrupted metabolic pathways in offspring of ED mothers. Further work is needed to examine potential mechanisms and functional outcomes of the observed methylation patterns.

    Full details in the University publications repository