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Epigenome-wide meta-analysis of blood DNA methylation in newborns and children identifies numerous loci related to gestational age

Title:	Epigenome-wide meta-analysis of blood DNA methylation in newborns and children identifies numerous loci related to gestational age
Authors:	Merid, S. K. (Simon Kebede); Novoloaca, A. (Alexei); Sharp, G. C. (Gemma C.); Kupers, L. K. (Leanne K.); Kho, A. T. (Alvin T.); Roy, R. (Ritu); Gao, L. (Lu); Annesi-Maesano, I. (Isabella); Jain, P. (Pooja); Plusquin, M. (Michelle); Kogevinas, M. (Manolis); Allard, C. (Catherine); Vehmeijer, F. O. (Florianne O.); Kazmi, N. (Nabila); Salas, L. A. (Lucas A.); Rezwan, F. I. (Faisal I.); Zhang, H. (Hongmei); Sebert, S. (Sylvain); Czamara, D. (Darina); Rifas-Shiman, S. L. (Sheryl L.); Melton, P. E. (Phillip E.); Lawlor, D. A. (Debbie A.); Pershagen, G. (Goran); Breton, C. V. (Carrie V.); Huen, K. (Karen); Baiz, N. (Nour); Gagliardi, L. (Luigi); Nawrot, T. S. (Tim S.); Corpeleijn, E. (Eva); Perron, P. (Patrice); Duijts, L. (Liesbeth); Nohr, E. A. (Ellen Aagaard); Bustamante, M. (Mariona); Ewart, S. L. (Susan L.); Karmaus, W. (Wilfried); Zhao, S. (Shanshan); Page, C. M. (Christian M.); Herceg, Z. (Zdenko); Jarvelin, M.-R. (Marjo-Riitta); Lahti, J. (Jari); Baccarelli, A. A. (Andrea A.); Anderson, D. (Denise); Kachroo, P. (Priyadarshini); Relton, C. L. (Caroline L.); Bergstrom, A. (Anna); Eskenazi, B. (Brenda); Soomro, M. H. (Munawar Hussain); Vineis, P. (Paolo); Snieder, H. (Harold); Bouchard, L. (Luigi); Jaddoe, V. W. (Vincent W.); Sorensen, T. I. (Thorkild I. A.); Vrijheid, M. (Martine); Arshad, S. H. (S. Hasan); Holloway, J. W. (John W.); Haberg, S. E. (Siri E.); Magnus, P. (Per); Dwyer, T. (Terence); Binder, E. B. (Elisabeth B.); DeMeo, D. L. (Dawn L.); Vonk, J. M. (Judith M.); Newnham, J. (John); Tantisira, K. G. (Kelan G.); Kull, I. (Inger); Wiemels, J. L. (Joseph L.); Heude, B. (Barbara); Sunyer, J. (Jordi); Nystad, W. (Wenche); Munthe-Kaas, M. C. (Monica C.); Raikkonen, K. (Katri); Oken, E. (Emily); Huang, R.-C. (Rae-Chi); Weiss, S. T. (Scott T.); Anto, J. M. (Josep Maria); Bousquet, J. (Jean); Kumar, A. (Ashish); Soderhall, C. (Cilla); Almqvist, C. (Catarina); Cardenas, A. (Andres); Gruzieva, O. (Olena); Xu, C.-J. (Cheng-Jian); Reese, S. E. (Sarah E.); Kere, J. (Juha); Brodin, P. (Petter); Solomon, O. (Olivia); Wielscher, M. (Matthias); Holland, N. (Nina); Ghantous, A. (Akram); Hivert, M.-F. (Marie-France); Felix, J. F. (Janine F.); Koppelman, G. H. (Gerard H.); London, S. J. (Stephanie J.); Melen, E. (Erik)
Publisher Information:	Springer Nature
Publication Year:	2020
Collection:	Jultika - University of Oulu repository / Oulun yliopiston julkaisuarkisto
Subject Terms:	Development; Epigenetics; Gestational age; Preterm birth; Transcriptomics
Description:	Background: Preterm birth and shorter duration of pregnancy are associated with increased morbidity in neonatal and later life. As the epigenome is known to have an important role during fetal development, we investigated associations between gestational age and blood DNA methylation in children. Methods: We performed meta-analysis of Illumina’s HumanMethylation450-array associations between gestational age and cord blood DNA methylation in 3648 newborns from 17 cohorts without common pregnancy complications, induced delivery or caesarean section. We also explored associations of gestational age with DNA methylation measured at 4–18 years in additional pediatric cohorts. Follow-up analyses of DNA methylation and gene expression correlations were performed in cord blood. DNA methylation profiles were also explored in tissues relevant for gestational age health effects: fetal brain and lung. Results: We identified 8899 CpGs in cord blood that were associated with gestational age (range 27–42 weeks), at Bonferroni significance, P < 1.06 × 10⁻⁷, of which 3343 were novel. These were annotated to 4966 genes. After restricting findings to at least three significant adjacent CpGs, we identified 1276 CpGs annotated to 325 genes. Results were generally consistent when analyses were restricted to term births. Cord blood findings tended not to persist into childhood and adolescence. Pathway analyses identified enrichment for biological processes critical to embryonic development. Follow-up of identified genes showed correlations between gestational age and DNA methylation levels in fetal brain and lung tissue, as well as correlation with expression levels. Conclusions: We identified numerous CpGs differentially methylated in relation to gestational age at birth that appear to reflect fetal developmental processes across tissues. These findings may contribute to understanding mechanisms linking gestational age to health effects.
Document Type:	article in journal/newspaper
File Description:	application/pdf
Language:	English
Availability:	http://urn.fi/urn:nbn:fi-fe2020120399344
Rights:	info:eu-repo/semantics/openAccess ; © The Author(s). 2020. This article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated. ; https://creativecommons.org/licenses/by/4.0/
Accession Number:	edsbas.5E939D57
Database:	BASE