Environment International (Jun 2024)

Green space exposure and blood DNA methylation at birth and in childhood – A multi-cohort study

  • Sofia Aguilar-Lacasaña,
  • Irene Fontes Marques,
  • Montserrat de Castro,
  • Payam Dadvand,
  • Xavier Escribà,
  • Serena Fossati,
  • Juan R González,
  • Mark Nieuwenhuijsen,
  • Rossella Alfano,
  • Isabella Annesi-Maesano,
  • Sonia Brescianini,
  • Kimberley Burrows,
  • Lucinda Calas,
  • Ahmed Elhakeem,
  • Barbara Heude,
  • Amy Hough,
  • Elena Isaevska,
  • Vincent W V Jaddoe,
  • Deborah A Lawlor,
  • Genevieve Monaghan,
  • Tim Nawrot,
  • Michelle Plusquin,
  • Lorenzo Richiardi,
  • Aidan Watmuff,
  • Tiffany C. Yang,
  • Martine Vrijheid,
  • Janine F Felix,
  • Mariona Bustamante

Journal volume & issue
Vol. 188
p. 108684

Abstract

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Green space exposure has been associated with improved mental, physical and general health. However, the underlying biological mechanisms remain largely unknown. The aim of this study was to investigate the association between green space exposure and cord and child blood DNA methylation.Data from eight European birth cohorts with a total of 2,988 newborns and 1,849 children were used. Two indicators of residential green space exposure were assessed: (i) surrounding greenness (satellite-based Normalized Difference Vegetation Index (NDVI) in buffers of 100 m and 300 m) and (ii) proximity to green space (having a green space ≥ 5,000 m2 within a distance of 300 m). For these indicators we assessed two exposure windows: (i) pregnancy, and (ii) the period from pregnancy to child blood DNA methylation assessment, named as cumulative exposure. DNA methylation was measured with the Illumina 450K or EPIC arrays. To identify differentially methylated positions (DMPs) we fitted robust linear regression models between pregnancy green space exposure and cord blood DNA methylation and between cumulative green space exposure and child blood DNA methylation. Two sensitivity analyses were conducted: (i) without adjusting for cellular composition, and (ii) adjusting for air pollution. Cohort results were combined through fixed-effect inverse variance weighted meta-analyses. Differentially methylated regions (DMRs) were identified from meta-analysed results using the Enmix-combp and DMRcate methods.There was no statistical evidence of pregnancy or cumulative exposures associating with any DMP (False Discovery Rate, FDR, p-value < 0.05). However, surrounding greenness exposure was inversely associated with four DMRs (three in cord blood and one in child blood) annotated to ADAMTS2, KCNQ1DN, SLC6A12 and SDK1 genes. Results did not change substantially in the sensitivity analyses.Overall, we found little evidence of the association between green space exposure and blood DNA methylation. Although we identified associations between surrounding greenness exposure with four DMRs, these findings require replication.

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