Epigenome-wide meta-analysis of prenatal vitamin D insufficiency and cord blood DNA methylation

Elizabeth W. Diemer; Johanna Tuhkanen; Sara Sammallahti; Kati Heinonen; Alexander Neumann; Sonia L. Robinson; Matthew Suderman; Jianping Jin; Christian M. Page; Ruby Fore; Sheryl L. Rifas-Shiman; Emily Oken; Patrice Perron; Luigi Bouchard; Marie France Hivert; Katri Räikköne; Jari Lahti; Edwina H. Yeung; Weihua Guan; Sunni L. Mumford; Maria C. Magnus; Siri Håberg; Wenche Nystad; Christine L. Parr; Stephanie J. London; Janine F. Felix; Henning Tiemeier

doi:10.1080/15592294.2024.2413815

Epigenome-wide meta-analysis of prenatal vitamin D insufficiency and cord blood DNA methylation

Elizabeth W. Diemer, Johanna Tuhkanen, Sara Sammallahti, Kati Heinonen, Alexander Neumann, Sonia L. Robinson, Matthew Suderman, Jianping Jin, Christian M. Page, Ruby Fore, Sheryl L. Rifas-Shiman, Emily Oken, Patrice Perron, Luigi Bouchard, Marie France Hivert, Katri Räikköne, Jari Lahti, Edwina H. Yeung, Weihua Guan, Sunni L. MumfordMaria C. Magnus, Siri Håberg, Wenche Nystad, Christine L. Parr, Stephanie J. London, Janine F. Felix, Henning Tiemeier

Biostatistics

Research output: Contribution to journal › Article › peer-review

Abstract

Low maternal vitamin D concentrations during pregnancy have been associated with a range of offspring health outcomes. DNA methylation is one mechanism by which the maternal vitamin D status during pregnancy could impact offspring’s health in later life. We aimed to evaluate whether maternal vitamin D insufficiency during pregnancy was conditionally associated with DNA methylation in the offspring cord blood. Maternal vitamin D insufficiency (plasma 25-hydroxy vitamin D (Formula presented.) 75 nmol/L) during pregnancy and offspring cord blood DNA methylation, assessed using Illumina Infinium 450k or Illumina EPIC Beadchip, was collected for 3738 mother–child pairs in 7 cohorts as part of the Pregnancy and Childhood Epigenetics (PACE) consortium. Associations between maternal vitamin D and offspring DNA methylation, adjusted for fetal sex, maternal smoking, maternal age, maternal pre-pregnancy or early pregnancy BMI, maternal education, gestational age at measurement of 25(OH)D, parity, and cell type composition, were estimated using robust linear regression in each cohort, and a fixed-effects meta-analysis was conducted. The prevalence of vitamin D insufficiency ranged from 44.3% to 78.5% across cohorts. Across 364,678 CpG sites, none were associated with maternal vitamin D insufficiency at an epigenome-wide significant level after correcting for multiple testing using Bonferroni correction or a less conservative Benjamini–Hochberg False Discovery Rate approach (FDR, p > 0.05). In this epigenome-wide association study, we did not find convincing evidence of a conditional association of vitamin D insufficiency with offspring DNA methylation at any measured CpG site.

Original language	English (US)
Article number	2413815
Journal	Epigenetics
Volume	19
Issue number	1
DOIs	https://doi.org/10.1080/15592294.2024.2413815
State	Published - 2024

Bibliographical note

Publisher Copyright:
© 2024 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group.

Keywords

DNA methylation
EWAS
PACE
Vitamin D
Vitamin D insufficiency
epigenetics
pregnancy

PubMed: MeSH publication types

Journal Article
Meta-Analysis

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10.1080/15592294.2024.2413815

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Diemer, E. W., Tuhkanen, J., Sammallahti, S., Heinonen, K., Neumann, A., Robinson, S. L., Suderman, M., Jin, J., Page, C. M., Fore, R., Rifas-Shiman, S. L., Oken, E., Perron, P., Bouchard, L., Hivert, M. F., Räikköne, K., Lahti, J., Yeung, E. H., Guan, W., ... Tiemeier, H. (2024). Epigenome-wide meta-analysis of prenatal vitamin D insufficiency and cord blood DNA methylation. Epigenetics, 19(1), Article 2413815. https://doi.org/10.1080/15592294.2024.2413815

Diemer, EW, Tuhkanen, J, Sammallahti, S, Heinonen, K, Neumann, A, Robinson, SL, Suderman, M, Jin, J, Page, CM, Fore, R, Rifas-Shiman, SL, Oken, E, Perron, P, Bouchard, L, Hivert, MF, Räikköne, K, Lahti, J, Yeung, EH, Guan, W, Mumford, SL, Magnus, MC, Håberg, S, Nystad, W, Parr, CL, London, SJ, Felix, JF & Tiemeier, H 2024, 'Epigenome-wide meta-analysis of prenatal vitamin D insufficiency and cord blood DNA methylation', Epigenetics, vol. 19, no. 1, 2413815. https://doi.org/10.1080/15592294.2024.2413815

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abstract = "Low maternal vitamin D concentrations during pregnancy have been associated with a range of offspring health outcomes. DNA methylation is one mechanism by which the maternal vitamin D status during pregnancy could impact offspring{\textquoteright}s health in later life. We aimed to evaluate whether maternal vitamin D insufficiency during pregnancy was conditionally associated with DNA methylation in the offspring cord blood. Maternal vitamin D insufficiency (plasma 25-hydroxy vitamin D (Formula presented.) 75 nmol/L) during pregnancy and offspring cord blood DNA methylation, assessed using Illumina Infinium 450k or Illumina EPIC Beadchip, was collected for 3738 mother–child pairs in 7 cohorts as part of the Pregnancy and Childhood Epigenetics (PACE) consortium. Associations between maternal vitamin D and offspring DNA methylation, adjusted for fetal sex, maternal smoking, maternal age, maternal pre-pregnancy or early pregnancy BMI, maternal education, gestational age at measurement of 25(OH)D, parity, and cell type composition, were estimated using robust linear regression in each cohort, and a fixed-effects meta-analysis was conducted. The prevalence of vitamin D insufficiency ranged from 44.3% to 78.5% across cohorts. Across 364,678 CpG sites, none were associated with maternal vitamin D insufficiency at an epigenome-wide significant level after correcting for multiple testing using Bonferroni correction or a less conservative Benjamini–Hochberg False Discovery Rate approach (FDR, p > 0.05). In this epigenome-wide association study, we did not find convincing evidence of a conditional association of vitamin D insufficiency with offspring DNA methylation at any measured CpG site.",

keywords = "DNA methylation, EWAS, PACE, Vitamin D, Vitamin D insufficiency, epigenetics, pregnancy",

author = "Diemer, {Elizabeth W.} and Johanna Tuhkanen and Sara Sammallahti and Kati Heinonen and Alexander Neumann and Robinson, {Sonia L.} and Matthew Suderman and Jianping Jin and Page, {Christian M.} and Ruby Fore and Rifas-Shiman, {Sheryl L.} and Emily Oken and Patrice Perron and Luigi Bouchard and Hivert, {Marie France} and Katri R{\"a}ikk{\"o}ne and Jari Lahti and Yeung, {Edwina H.} and Weihua Guan and Mumford, {Sunni L.} and Magnus, {Maria C.} and Siri H{\aa}berg and Wenche Nystad and Parr, {Christine L.} and London, {Stephanie J.} and Felix, {Janine F.} and Henning Tiemeier",

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doi = "10.1080/15592294.2024.2413815",

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AU - Diemer, Elizabeth W.

AU - Tuhkanen, Johanna

AU - Sammallahti, Sara

AU - Heinonen, Kati

AU - Neumann, Alexander

AU - Robinson, Sonia L.

AU - Suderman, Matthew

AU - Jin, Jianping

AU - Page, Christian M.

AU - Fore, Ruby

AU - Rifas-Shiman, Sheryl L.

AU - Oken, Emily

AU - Perron, Patrice

AU - Bouchard, Luigi

AU - Hivert, Marie France

AU - Räikköne, Katri

AU - Lahti, Jari

AU - Yeung, Edwina H.

AU - Guan, Weihua

AU - Mumford, Sunni L.

AU - Magnus, Maria C.

AU - Håberg, Siri

AU - Nystad, Wenche

AU - Parr, Christine L.

AU - London, Stephanie J.

AU - Felix, Janine F.

AU - Tiemeier, Henning

PY - 2024

Y1 - 2024

N2 - Low maternal vitamin D concentrations during pregnancy have been associated with a range of offspring health outcomes. DNA methylation is one mechanism by which the maternal vitamin D status during pregnancy could impact offspring’s health in later life. We aimed to evaluate whether maternal vitamin D insufficiency during pregnancy was conditionally associated with DNA methylation in the offspring cord blood. Maternal vitamin D insufficiency (plasma 25-hydroxy vitamin D (Formula presented.) 75 nmol/L) during pregnancy and offspring cord blood DNA methylation, assessed using Illumina Infinium 450k or Illumina EPIC Beadchip, was collected for 3738 mother–child pairs in 7 cohorts as part of the Pregnancy and Childhood Epigenetics (PACE) consortium. Associations between maternal vitamin D and offspring DNA methylation, adjusted for fetal sex, maternal smoking, maternal age, maternal pre-pregnancy or early pregnancy BMI, maternal education, gestational age at measurement of 25(OH)D, parity, and cell type composition, were estimated using robust linear regression in each cohort, and a fixed-effects meta-analysis was conducted. The prevalence of vitamin D insufficiency ranged from 44.3% to 78.5% across cohorts. Across 364,678 CpG sites, none were associated with maternal vitamin D insufficiency at an epigenome-wide significant level after correcting for multiple testing using Bonferroni correction or a less conservative Benjamini–Hochberg False Discovery Rate approach (FDR, p > 0.05). In this epigenome-wide association study, we did not find convincing evidence of a conditional association of vitamin D insufficiency with offspring DNA methylation at any measured CpG site.

AB - Low maternal vitamin D concentrations during pregnancy have been associated with a range of offspring health outcomes. DNA methylation is one mechanism by which the maternal vitamin D status during pregnancy could impact offspring’s health in later life. We aimed to evaluate whether maternal vitamin D insufficiency during pregnancy was conditionally associated with DNA methylation in the offspring cord blood. Maternal vitamin D insufficiency (plasma 25-hydroxy vitamin D (Formula presented.) 75 nmol/L) during pregnancy and offspring cord blood DNA methylation, assessed using Illumina Infinium 450k or Illumina EPIC Beadchip, was collected for 3738 mother–child pairs in 7 cohorts as part of the Pregnancy and Childhood Epigenetics (PACE) consortium. Associations between maternal vitamin D and offspring DNA methylation, adjusted for fetal sex, maternal smoking, maternal age, maternal pre-pregnancy or early pregnancy BMI, maternal education, gestational age at measurement of 25(OH)D, parity, and cell type composition, were estimated using robust linear regression in each cohort, and a fixed-effects meta-analysis was conducted. The prevalence of vitamin D insufficiency ranged from 44.3% to 78.5% across cohorts. Across 364,678 CpG sites, none were associated with maternal vitamin D insufficiency at an epigenome-wide significant level after correcting for multiple testing using Bonferroni correction or a less conservative Benjamini–Hochberg False Discovery Rate approach (FDR, p > 0.05). In this epigenome-wide association study, we did not find convincing evidence of a conditional association of vitamin D insufficiency with offspring DNA methylation at any measured CpG site.

KW - DNA methylation

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KW - Vitamin D insufficiency

KW - epigenetics

KW - pregnancy

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Epigenome-wide meta-analysis of prenatal vitamin D insufficiency and cord blood DNA methylation

Abstract

Bibliographical note

Keywords

PubMed: MeSH publication types

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