Journal article
Early moderate prenatal alcohol exposure and maternal diet impact offspring DNA methylation across species
M Bestry, AN Larcombe, N Kresoje, EK Chivers, C Bakker, JP Fitzpatrick, EJ Elliott, JM Craig, E Muggli, J Halliday, D Hutchinson, S Buckberry, R Lister, M Symons, D Martino
eLife | eLIFE SCIENCES PUBL LTD | Published : 2024
DOI: 10.7554/eLife.92135
Open access
Abstract
Alcohol consumption in pregnancy can affect genome regulation in the developing offspring but results have been contradictory. We employed a physiologically relevant murine model of short-term moderate prenatal alcohol exposure (PAE) resembling common patterns of alcohol consumption in pregnancy in humans. Early moderate PAE was sufficient to affect site-specific DNA methylation in newborn pups without altering behavioural outcomes in adult littermates. Whole-genome bisulfite sequencing of neonatal brain and liver revealed stochastic influence on DNA methylation that was mostly tissue-specific, with some perturbations likely originating as early as gastrulation. DNA methylation differences w..
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Awarded by National Health and Medical Research Council
Awarded by Department of Health, Government of Western Australia
Funding Acknowledgements
National Health and Medical Research Council 114601 James P Fitzpatrick Elizabeth J Elliott Martyn SymonsDepartment of Health, Government of Western Australia WACRF2019/20 R8 Alexander N Larcombe James P Fitzpatrick Elizabeth J Elliott Jeffrey M Craig Evelyne Muggli Jane Halliday Delyse Hutchinson Sam Buckberry Ryan Lister Martyn Symons David MartinoThe funders had no role in study design, data collection and interpretation, or the decision to submit the work for publication.