TY - JOUR
T1 - The early-life exposome and epigenetic age acceleration in children
AU - de Prado-Bert, Paula
AU - Ruiz-Arenas, Carlos
AU - Vives-Usano, Marta
AU - Andrusaityte, Sandra
AU - Cadiou, Solène
AU - Carracedo, Angel
AU - Casas, M.
AU - Chatzi, Leda
AU - Dadvand, Payam
AU - González, Juan R.
AU - Grazuleviciene, Regina
AU - Gutzkow, Kristine B.
AU - Haug, Line S.
AU - Hernandez-Ferrer, Carles
AU - Keun, Hector C.
AU - Lepeule, Johanna
AU - Maitre, Léa
AU - McEachan, Rosie
AU - Nieuwenhuijsen, Mark J.
AU - Pelegrí, Dolors
AU - Robinson, Oliver
AU - Slama, Rémy
AU - Vafeiadi, Marina
AU - Sunyer, Jordi
AU - Vrijheid, Martine
AU - Bustamante, Mariona
N1 - Publisher Copyright:
© 2021
PY - 2021/10
Y1 - 2021/10
N2 - The early-life exposome influences future health and accelerated biological aging has been proposed as one of the underlying biological mechanisms. We investigated the association between more than 100 exposures assessed during pregnancy and in childhood (including indoor and outdoor air pollutants, built environment, green environments, tobacco smoking, lifestyle exposures, and biomarkers of chemical pollutants), and epigenetic age acceleration in 1,173 children aged 7 years old from the Human Early-Life Exposome project. Age acceleration was calculated based on Horvath's Skin and Blood clock using child blood DNA methylation measured by Infinium HumanMethylation450 BeadChips. We performed an exposure-wide association study between prenatal and childhood exposome and age acceleration. Maternal tobacco smoking during pregnancy was nominally associated with increased age acceleration. For childhood exposures, indoor particulate matter absorbance (PMabs) and parental smoking were nominally associated with an increase in age acceleration. Exposure to the organic pesticide dimethyl dithiophosphate and the persistent pollutant polychlorinated biphenyl-138 (inversely associated with child body mass index) were protective for age acceleration. None of the associations remained significant after multiple-testing correction. Pregnancy and childhood exposure to tobacco smoke and childhood exposure to indoor PMabs may accelerate epigenetic aging from an early age.
AB - The early-life exposome influences future health and accelerated biological aging has been proposed as one of the underlying biological mechanisms. We investigated the association between more than 100 exposures assessed during pregnancy and in childhood (including indoor and outdoor air pollutants, built environment, green environments, tobacco smoking, lifestyle exposures, and biomarkers of chemical pollutants), and epigenetic age acceleration in 1,173 children aged 7 years old from the Human Early-Life Exposome project. Age acceleration was calculated based on Horvath's Skin and Blood clock using child blood DNA methylation measured by Infinium HumanMethylation450 BeadChips. We performed an exposure-wide association study between prenatal and childhood exposome and age acceleration. Maternal tobacco smoking during pregnancy was nominally associated with increased age acceleration. For childhood exposures, indoor particulate matter absorbance (PMabs) and parental smoking were nominally associated with an increase in age acceleration. Exposure to the organic pesticide dimethyl dithiophosphate and the persistent pollutant polychlorinated biphenyl-138 (inversely associated with child body mass index) were protective for age acceleration. None of the associations remained significant after multiple-testing correction. Pregnancy and childhood exposure to tobacco smoke and childhood exposure to indoor PMabs may accelerate epigenetic aging from an early age.
KW - Aging
KW - Childhood
KW - Environmental exposures
KW - Epigenetic age acceleration
KW - Pregnancy
UR - http://www.scopus.com/inward/record.url?scp=85107935579&partnerID=8YFLogxK
U2 - 10.1016/j.envint.2021.106683
DO - 10.1016/j.envint.2021.106683
M3 - Article
C2 - 34144479
AN - SCOPUS:85107935579
SN - 0160-4120
VL - 155
JO - Environment international
JF - Environment international
M1 - 106683
ER -