Clinical Epigenetics (Aug 2023)

Fathers’ preconception smoking and offspring DNA methylation

  • Negusse Tadesse Kitaba,
  • Gerd Toril Mørkve Knudsen,
  • Ane Johannessen,
  • Faisal I. Rezwan,
  • Andrei Malinovschi,
  • Anna Oudin,
  • Bryndis Benediktsdottir,
  • David Martino,
  • Francisco Javier Callejas González,
  • Leopoldo Palacios Gómez,
  • Mathias Holm,
  • Nils Oskar Jõgi,
  • Shyamali C. Dharmage,
  • Svein Magne Skulstad,
  • Sarah H. Watkins,
  • Matthew Suderman,
  • Francisco Gómez-Real,
  • Vivi Schlünssen,
  • Cecilie Svanes,
  • John W. Holloway

DOI
https://doi.org/10.1186/s13148-023-01540-7
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 16

Abstract

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Abstract Background Experimental studies suggest that exposures may impact respiratory health across generations via epigenetic changes transmitted specifically through male germ cells. Studies in humans are, however, limited. We aim to identify epigenetic marks in offspring associated with father’s preconception smoking. Methods We conducted epigenome-wide association studies (EWAS) in the RHINESSA cohort (7–50 years) on father’s any preconception smoking (n = 875 offspring) and father’s pubertal onset smoking < 15 years (n = 304), using Infinium MethylationEPIC Beadchip arrays, adjusting for offspring age, own smoking and maternal smoking. EWAS of maternal and offspring personal smoking were performed for comparison. Father’s smoking-associated dmCpGs were checked in subpopulations of offspring who reported no personal smoking and no maternal smoking exposure. Results Father’s smoking commencing preconception was associated with methylation of blood DNA in offspring at two cytosine-phosphate-guanine sites (CpGs) (false discovery rate (FDR) < 0.05) in PRR5 and CENPP. Father’s pubertal onset smoking was associated with 19 CpGs (FDR < 0.05) mapped to 14 genes (TLR9, DNTT, FAM53B, NCAPG2, PSTPIP2, MBIP, C2orf39, NTRK2, DNAJC14, CDO1, PRAP1, TPCN1, IRS1 and CSF1R). These differentially methylated sites were hypermethylated and associated with promoter regions capable of gene silencing. Some of these sites were associated with offspring outcomes in this cohort including ever-asthma (NTRK2), ever-wheezing (DNAJC14, TPCN1), weight (FAM53B, NTRK2) and BMI (FAM53B, NTRK2) (p < 0.05). Pathway analysis showed enrichment for gene ontology pathways including regulation of gene expression, inflammation and innate immune responses. Father’s smoking-associated sites did not overlap with dmCpGs identified in EWAS of personal and maternal smoking (FDR < 0.05), and all sites remained significant (p < 0.05) in analyses of offspring with no personal smoking and no maternal smoking exposure. Conclusion Father’s preconception smoking, particularly in puberty, is associated with offspring DNA methylation, providing evidence that epigenetic mechanisms may underlie epidemiological observations that pubertal paternal smoking increases risk of offspring asthma, low lung function and obesity.

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