DNA methylation shows genome-wide association of NFIX, RAPGEF2 and MSRB3 with gestational age at birth

Hwajin Lee; Andrew E. Jaffe; Jason I. Feinberg; Rakel Tryggvadottir; Shannon Brown; Carolina Montano; Martin J. Aryee; Rafael A. Irizarry; Julie Herbstman; Frank R. Witter; Lynn R. Goldman; Andrew P. Feinberg; M. Daniele Fallin

doi:10.1093/ije/dyr237

DNA methylation shows genome-wide association of NFIX, RAPGEF2 and MSRB3 with gestational age at birth

Hwajin Lee, Andrew E. Jaffe, Jason I. Feinberg, Rakel Tryggvadottir, Shannon Brown, Carolina Montano, Martin J. Aryee, Rafael A. Irizarry, Julie Herbstman, Frank R. Witter, Lynn R. Goldman, Andrew P. Feinberg, M. Daniele Fallin

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

49 Scopus citations

Abstract

Background: Gestational age at birth strongly predicts neonatal, adolescent and adult morbidity and mortality through mostly unknown mechanisms. Identification of specific genes that are undergoing regulatory change prior to birth, such as through changes in DNA methylation, would increase our understanding of developmental changes occurring during the third trimester and consequences of pre-term birth (PTB). Methods: We performed a genome-wide analysis of DNA methylation (using microarrays, specifically CHARM 2.0) in 141 newborns collected in Baltimore, MD, using novel statistical methodology to identify genomic regions associated with gestational age at birth. Bisulphite pyrosequencing was used to validate significant differentially methylated regions (DMRs), and real-time PCR was performed to assess functional significance of differential methylation in a subset of newborns. Results: We identified three DMRs at genome-wide significance levels adjacent to the NFIX, RAPGEF2 and MSRB3 genes. All three regions were validated by pyrosequencing, and RAGPEF2 also showed an inverse correlation between DNA methylation levels and gene expression levels. Although the three DMRs appear very dynamic with gestational age in our newborn sample, adult DNA methylation levels at these regions are stable and of equal or greater magnitude than the oldest neonate, directionally consistent with the gestational age results. Conclusions: We have identified three differentially methylated regions associated with gestational age at birth. All three nearby genes play important roles in the development of several organs, including skeletal muscle, brain and haematopoietic system. Therefore, they may provide initial insight into the basis of PTB's negative health outcomes. The genome-wide custom DNA methylation array technology and novel statistical methods employed in this study could constitute a model for epidemiologic studies of epigenetic variation. Published by Oxford University Press on behalf of the International Epidemiological Association

Original language	English (US)
Article number	dyr237
Pages (from-to)	188-199
Number of pages	12
Journal	International journal of epidemiology
Volume	41
Issue number	1
DOIs	https://doi.org/10.1093/ije/dyr237
State	Published - Feb 2012

Keywords

Differentially methylated regions
Epigenetic epidemiology
Genome-wide DNA methylation
Gestational age
Pre-term birth

ASJC Scopus subject areas

Epidemiology

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10.1093/ije/dyr237

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Lee, H., Jaffe, A. E., Feinberg, J. I., Tryggvadottir, R., Brown, S., Montano, C., Aryee, M. J., Irizarry, R. A., Herbstman, J., Witter, F. R., Goldman, L. R., Feinberg, A. P., & Fallin, M. D. (2012). DNA methylation shows genome-wide association of NFIX, RAPGEF2 and MSRB3 with gestational age at birth. International journal of epidemiology, 41(1), 188-199. Article dyr237. https://doi.org/10.1093/ije/dyr237

Lee, H, Jaffe, AE, Feinberg, JI, Tryggvadottir, R, Brown, S, Montano, C, Aryee, MJ, Irizarry, RA, Herbstman, J, Witter, FR, Goldman, LR, Feinberg, AP & Fallin, MD 2012, 'DNA methylation shows genome-wide association of NFIX, RAPGEF2 and MSRB3 with gestational age at birth', International journal of epidemiology, vol. 41, no. 1, dyr237, pp. 188-199. https://doi.org/10.1093/ije/dyr237

@article{0e526c5912f94093a9b4fe83668ef0ce,

title = "DNA methylation shows genome-wide association of NFIX, RAPGEF2 and MSRB3 with gestational age at birth",

abstract = "Background: Gestational age at birth strongly predicts neonatal, adolescent and adult morbidity and mortality through mostly unknown mechanisms. Identification of specific genes that are undergoing regulatory change prior to birth, such as through changes in DNA methylation, would increase our understanding of developmental changes occurring during the third trimester and consequences of pre-term birth (PTB). Methods: We performed a genome-wide analysis of DNA methylation (using microarrays, specifically CHARM 2.0) in 141 newborns collected in Baltimore, MD, using novel statistical methodology to identify genomic regions associated with gestational age at birth. Bisulphite pyrosequencing was used to validate significant differentially methylated regions (DMRs), and real-time PCR was performed to assess functional significance of differential methylation in a subset of newborns. Results: We identified three DMRs at genome-wide significance levels adjacent to the NFIX, RAPGEF2 and MSRB3 genes. All three regions were validated by pyrosequencing, and RAGPEF2 also showed an inverse correlation between DNA methylation levels and gene expression levels. Although the three DMRs appear very dynamic with gestational age in our newborn sample, adult DNA methylation levels at these regions are stable and of equal or greater magnitude than the oldest neonate, directionally consistent with the gestational age results. Conclusions: We have identified three differentially methylated regions associated with gestational age at birth. All three nearby genes play important roles in the development of several organs, including skeletal muscle, brain and haematopoietic system. Therefore, they may provide initial insight into the basis of PTB's negative health outcomes. The genome-wide custom DNA methylation array technology and novel statistical methods employed in this study could constitute a model for epidemiologic studies of epigenetic variation. Published by Oxford University Press on behalf of the International Epidemiological Association",

keywords = "Differentially methylated regions, Epigenetic epidemiology, Genome-wide DNA methylation, Gestational age, Pre-term birth",

author = "Hwajin Lee and Jaffe, {Andrew E.} and Feinberg, {Jason I.} and Rakel Tryggvadottir and Shannon Brown and Carolina Montano and Aryee, {Martin J.} and Irizarry, {Rafael A.} and Julie Herbstman and Witter, {Frank R.} and Goldman, {Lynn R.} and Feinberg, {Andrew P.} and Fallin, {M. Daniele}",

note = "Funding Information: National Institutes of Health (R01ES017646 to M.D.F. and A.F., 5R37CA054358-19 to A.F.); Johns Hopkins Bloomberg School of Public Health, The THREE study (to L.R.G.); the Maryland Cigarette Restitution Program Research Grant (to R.U.H.); National Institute of Environmental Health Sciences (grant 1R01ES015445 to R.U.H.); Heinz Family Foundation (to L.R.G.).",

year = "2012",

month = feb,

doi = "10.1093/ije/dyr237",

language = "English (US)",

volume = "41",

pages = "188--199",

journal = "International journal of epidemiology",

issn = "0300-5771",

publisher = "Oxford University Press",

number = "1",

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TY - JOUR

T1 - DNA methylation shows genome-wide association of NFIX, RAPGEF2 and MSRB3 with gestational age at birth

AU - Lee, Hwajin

AU - Jaffe, Andrew E.

AU - Feinberg, Jason I.

AU - Tryggvadottir, Rakel

AU - Brown, Shannon

AU - Montano, Carolina

AU - Aryee, Martin J.

AU - Irizarry, Rafael A.

AU - Herbstman, Julie

AU - Witter, Frank R.

AU - Goldman, Lynn R.

AU - Feinberg, Andrew P.

AU - Fallin, M. Daniele

N1 - Funding Information: National Institutes of Health (R01ES017646 to M.D.F. and A.F., 5R37CA054358-19 to A.F.); Johns Hopkins Bloomberg School of Public Health, The THREE study (to L.R.G.); the Maryland Cigarette Restitution Program Research Grant (to R.U.H.); National Institute of Environmental Health Sciences (grant 1R01ES015445 to R.U.H.); Heinz Family Foundation (to L.R.G.).

PY - 2012/2

Y1 - 2012/2

N2 - Background: Gestational age at birth strongly predicts neonatal, adolescent and adult morbidity and mortality through mostly unknown mechanisms. Identification of specific genes that are undergoing regulatory change prior to birth, such as through changes in DNA methylation, would increase our understanding of developmental changes occurring during the third trimester and consequences of pre-term birth (PTB). Methods: We performed a genome-wide analysis of DNA methylation (using microarrays, specifically CHARM 2.0) in 141 newborns collected in Baltimore, MD, using novel statistical methodology to identify genomic regions associated with gestational age at birth. Bisulphite pyrosequencing was used to validate significant differentially methylated regions (DMRs), and real-time PCR was performed to assess functional significance of differential methylation in a subset of newborns. Results: We identified three DMRs at genome-wide significance levels adjacent to the NFIX, RAPGEF2 and MSRB3 genes. All three regions were validated by pyrosequencing, and RAGPEF2 also showed an inverse correlation between DNA methylation levels and gene expression levels. Although the three DMRs appear very dynamic with gestational age in our newborn sample, adult DNA methylation levels at these regions are stable and of equal or greater magnitude than the oldest neonate, directionally consistent with the gestational age results. Conclusions: We have identified three differentially methylated regions associated with gestational age at birth. All three nearby genes play important roles in the development of several organs, including skeletal muscle, brain and haematopoietic system. Therefore, they may provide initial insight into the basis of PTB's negative health outcomes. The genome-wide custom DNA methylation array technology and novel statistical methods employed in this study could constitute a model for epidemiologic studies of epigenetic variation. Published by Oxford University Press on behalf of the International Epidemiological Association

AB - Background: Gestational age at birth strongly predicts neonatal, adolescent and adult morbidity and mortality through mostly unknown mechanisms. Identification of specific genes that are undergoing regulatory change prior to birth, such as through changes in DNA methylation, would increase our understanding of developmental changes occurring during the third trimester and consequences of pre-term birth (PTB). Methods: We performed a genome-wide analysis of DNA methylation (using microarrays, specifically CHARM 2.0) in 141 newborns collected in Baltimore, MD, using novel statistical methodology to identify genomic regions associated with gestational age at birth. Bisulphite pyrosequencing was used to validate significant differentially methylated regions (DMRs), and real-time PCR was performed to assess functional significance of differential methylation in a subset of newborns. Results: We identified three DMRs at genome-wide significance levels adjacent to the NFIX, RAPGEF2 and MSRB3 genes. All three regions were validated by pyrosequencing, and RAGPEF2 also showed an inverse correlation between DNA methylation levels and gene expression levels. Although the three DMRs appear very dynamic with gestational age in our newborn sample, adult DNA methylation levels at these regions are stable and of equal or greater magnitude than the oldest neonate, directionally consistent with the gestational age results. Conclusions: We have identified three differentially methylated regions associated with gestational age at birth. All three nearby genes play important roles in the development of several organs, including skeletal muscle, brain and haematopoietic system. Therefore, they may provide initial insight into the basis of PTB's negative health outcomes. The genome-wide custom DNA methylation array technology and novel statistical methods employed in this study could constitute a model for epidemiologic studies of epigenetic variation. Published by Oxford University Press on behalf of the International Epidemiological Association

KW - Differentially methylated regions

KW - Epigenetic epidemiology

KW - Genome-wide DNA methylation

KW - Gestational age

KW - Pre-term birth

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U2 - 10.1093/ije/dyr237

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SN - 0300-5771

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JO - International journal of epidemiology

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DNA methylation shows genome-wide association of NFIX, RAPGEF2 and MSRB3 with gestational age at birth

Abstract

Keywords

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