Paternal pre-pubertal tobacco smoking and offspring DNA methylation
Paternal pre-pubertal tobacco smoking and offspring DNA methylation
Background: early life paternal adverse environment has significant health consequences for the health of his offspring. Children born from father’s who start smoking before age 15 have three-fold risk of developing asthma, lower lung function and increased BMI. We hypothesised that the underlying mechanism could be in part explained by epigenetic programming.
Aim: to identify epigenetic marks in offspring associated with father’s preconception smoking.
Methods: an epigenome-wide association studie (EWAS) in the RHINESSA cohort from six study centres on father’s pubertal smoking <15 years (N=304) on DNA methylation profiled in blood using Illumina Infinium MethylationEPIC arrays. Differentially methylated CpG sites (dmCpGs) were identified using robust regression models adjusting for offspring age, sex, maternal smoking, personal smoking and blood cell type proportions.
Results: father’s pubertal onset smoking was associated with 19 dmCpGs (FDR <0.05) mapped to 14 genes including genes whose function relate to immune responses (TLR9, CSFR1) and obesity (IRS1, NTRK2). These dmCpGs were hypermethylated and associated with promoter regions capable of gene silencing. Pathway analysis showed enrichment for gene ontology pathways including regulation of gene expression, inflammation and innate immune responses. dmCpGs associated with paternal smoking were distinct from those associated with maternal smoking in pregnancy.
Conclusions: father’s preconception smoking, particularly in puberty, is associated with offspring DNA methylation, providing evidence that epigenetic mechanisms may underly epidemiological observations that pubertal paternal smoking increases risk of offspring asthma, low lung function and obesity.
Kitaba, N
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Knudsen, T.
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Johannessen, A.
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Rezwan, F.
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Malinovschi, A.
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Oudin, A.
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Benediktsdottir, B.
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Martino, D.
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González, F Callejas.
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Gómez, L.
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Holm, M.
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Jõgi, O.
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Dharmage, S. Shyamali
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Skulstad, S.
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Gómez-Real, F.
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Schlünssen, V.
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Svanes, C.
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Holloway, J.
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Kitaba, N
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Knudsen, T.
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Johannessen, A.
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Rezwan, F.
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Malinovschi, A.
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Oudin, A.
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Benediktsdottir, B.
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Martino, D.
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González, F Callejas.
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Gómez, L.
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Holm, M.
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Jõgi, O.
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Dharmage, S. Shyamali
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Skulstad, S.
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Gómez-Real, F.
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Schlünssen, V.
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Svanes, C.
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Holloway, J.
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Kitaba, N, Knudsen, T., Johannessen, A., Rezwan, F., Malinovschi, A., Oudin, A., Benediktsdottir, B., Martino, D., González, F Callejas., Gómez, L., Holm, M., Jõgi, O., Dharmage, S. Shyamali, Skulstad, S., Gómez-Real, F., Schlünssen, V., Svanes, C. and Holloway, J.
(2022)
Paternal pre-pubertal tobacco smoking and offspring DNA methylation.
European Respiratory Journal, 60 (66), [1206].
(doi:10.1183/13993003.congress-2022.1206).
Record type:
Meeting abstract
Abstract
Background: early life paternal adverse environment has significant health consequences for the health of his offspring. Children born from father’s who start smoking before age 15 have three-fold risk of developing asthma, lower lung function and increased BMI. We hypothesised that the underlying mechanism could be in part explained by epigenetic programming.
Aim: to identify epigenetic marks in offspring associated with father’s preconception smoking.
Methods: an epigenome-wide association studie (EWAS) in the RHINESSA cohort from six study centres on father’s pubertal smoking <15 years (N=304) on DNA methylation profiled in blood using Illumina Infinium MethylationEPIC arrays. Differentially methylated CpG sites (dmCpGs) were identified using robust regression models adjusting for offspring age, sex, maternal smoking, personal smoking and blood cell type proportions.
Results: father’s pubertal onset smoking was associated with 19 dmCpGs (FDR <0.05) mapped to 14 genes including genes whose function relate to immune responses (TLR9, CSFR1) and obesity (IRS1, NTRK2). These dmCpGs were hypermethylated and associated with promoter regions capable of gene silencing. Pathway analysis showed enrichment for gene ontology pathways including regulation of gene expression, inflammation and innate immune responses. dmCpGs associated with paternal smoking were distinct from those associated with maternal smoking in pregnancy.
Conclusions: father’s preconception smoking, particularly in puberty, is associated with offspring DNA methylation, providing evidence that epigenetic mechanisms may underly epidemiological observations that pubertal paternal smoking increases risk of offspring asthma, low lung function and obesity.
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e-pub ahead of print date: 1 December 2022
Additional Information:
This is an ERS International Congress abstract. No full-text version is available. Further material to accompany this abstract may be available at www.ers-education.org (ERS member access only).
Venue - Dates:
European Respiratory Society International Congress 2022, , Barcelona, Spain, 2022-09-04 - 2022-09-06
Identifiers
Local EPrints ID: 478015
URI: http://eprints.soton.ac.uk/id/eprint/478015
ISSN: 0903-1936
PURE UUID: 5ea8566c-a7e6-41d1-84a0-00e3b9862212
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Date deposited: 19 Jun 2023 16:57
Last modified: 10 Aug 2024 01:51
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Contributors
Author:
T. Knudsen
Author:
A. Johannessen
Author:
F. Rezwan
Author:
A. Malinovschi
Author:
A. Oudin
Author:
B. Benediktsdottir
Author:
D. Martino
Author:
F Callejas. González
Author:
L. Gómez
Author:
M. Holm
Author:
O. Jõgi
Author:
S. Shyamali Dharmage
Author:
S. Skulstad
Author:
F. Gómez-Real
Author:
V. Schlünssen
Author:
C. Svanes
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