The impact of environmental exposures on DNA methylation in the EXPANSE project

Varování

Publikace nespadá pod Ústav výpočetní techniky, ale pod Přírodovědeckou fakultu. Oficiální stránka publikace je na webu muni.cz.

Autoři	VOGLI Megi JEONG Ayoung YU Zhebin VONK Judith M IBI Dorina KRONBERG Jaanika GREGOR Petr MAIER Lisa LESKIEN Miriam CIRACH Marta DADVAND Payam MIKEŠ Ondřej GRUZIEVA Olena GEHRING Ulrike WOLF Kathrin WALDENBERGER Melanie IMBODEN Medea ČUPR Pavel DE HOOGH Kees KOPPELMAN Gerard H MELÉN Erik PICKFORD Regina THIERING Elisabeth STANDL Marie SAUCY Apolline TONNE Cathryn O'CALLAGHAN Cristina KOGEVINAS Manolis NIEUWENHUIJSEN Mark ORTEGA Natalia OLMOS Sergio WALKER Douglas BEULENS Joline PINHO Maria Gabriela Matias MACKENBACH Joreintje IACOVIELLO Licia PORTA Daniela ASTA Federica CULASSO Martina STAFOGGIA Massimo DE WIT Ardine SONNENSCHEIN Tabea SCHEIDER Simon JONGSMA Karin BREDENOORD Annelien SAFARLOU Caspar OUDIN Anna FORSBERG Bertil OLSSON David BOTTAI Matteo WHEELOCK Craig ANNILO Tarmo ESKO Tonu LUIGIES René TIEBEN Rob CARRERAS Anna DE CID Rafael CORTÉS Beatriz OBON Mireia BODINIER Barbara VUCKOVIC Dragana PETROVIC Dusan QUINT Jennifer CHADEAU-HYAM Marc WHITAKER Matthew VINEIS Paolo FILIPPI Sarah DAGNINIO Sonia WRIGHT Thomas ZUBER Verena BERGSTRÖM Anna PERSHAGEN Göran LJUNGMAN Petter HE Shizhen PIKHART Hynek BOBÁK Martin SCHNEIDER Alexandra PETERS Annette BREITNER Susanne ZHAO Tianyu SCALBERT Augustin HUYBRECHTS Inge GUNTER Marc KESKI-RAHKONEN Pekka SALEK Reza KLÁNOVÁ Jana ANDRÝSKOVÁ Lenka PILER Pavel HŮLEK Richard DUDOVÁ Zdenka JANSSEN Nicole BUSSALLEU Alonso FLÜCKIGER Benjamin VIENNEAU Danielle KEIDEL Dirk SCHAFFNER Emmanuel LOVISON Gianfranco EZE Ikenna KWIATKOWSKI Marek PROBST-HENSCH Nicole DELPIERRE Cyrille MAUREL Marine KELLY-IRVING Michelle CASTAGNÉ Raphaële LEPAGE Benoit SAMOLI Evangelia KATSOUYANNI Klea DIMAKOPOULOU Konstantina RODOPOULOU Sophia KASDAGLI Maria Iosifina EVANGELOPOULOS Dimitris HUSS Anke KROP Esmeralda HOEK Gerard VLAANDEREN Jelle YOU Jingxian KERCKHOFFS Jules KYRIAKOU Kalliopi PORTENGEN Lützen EBBERINK Martje VERMEULEN Roel YOU-CHEN Shen YUAN Zhendong LAKERVELD Jeroen GIALLUISI Alessandro MILLER Gary VAN RIJSWIJK Jurriaan COSTANZO Simona RUTTEN Werner MAŃCZUK Marta KOCZKODAJ Paweł CIUBA Agata POLAŃSKA Kinga HANKE Wojciech JANKOWSKA Agnieszka PAC Agnieszka SOCHACKA-TATARA Elzbieta MAJEWSKA Renata
Rok publikování	2026
Druh	Článek v odborném periodiku
Časopis / Zdroj	EBioMedicine
Fakulta / Pracoviště MU	Přírodovědecká fakulta
Citace
www	https://www.sciencedirect.com/science/article/pii/S2352396425005341
Doi	https://doi.org/10.1016/j.ebiom.2025.106084
Klíčová slova	DNA methylation; Exposome; External exposome; Internal exposome; Life course assessment; European cohorts
Přiložené soubory	2559960.pdf
Popis	Background Living in an urban environment exposes the population to a mix of environmental and social factors, known as the Urban Exposome, that can influence health via changes in DNA methylation. We hypothesised that linking urban exposures with epigenome-wide DNA methylation in blood can reveal impacts across the lifespan. Methods In the EXPANSE project, we conducted an inverse variance-weighted meta-analysis of epigenome-wide association studies of seven European cohorts. Urban exposures were estimated at participants' home addresses and included air pollution (PM2.5, NO2, O3), light at night, modified soil-adjusted vegetation index, and urbanicity. Findings DNA methylation was measured in blood samples from 1778 children (4-10 years), 878 adolescents (16 years), and 5975 adults (18-87 years). PM2.5, NO2, and greenness were associated with methylation differences in children, while greenness and urbanicity showed associations in adults. Regional analyses showed differentially methylated regions (DMRs) across all life stages. Pathway analysis showed that monthly NO2 in children was linked to immune and infectious disease pathways, whereas adult urbanicity was associated with immune pathways as well as PD-L1 expression and the PD-1 checkpoint pathway in cancer. Interpretation Urban environmental factors induce DNA methylation changes across life stages, with stronger associations in young children and adults. We observed a distinct contrast in the methylation changes associated with greenness compared to other urban environmental factors. However, disentangling exposure-specific methylome signatures remains a challenge.
Související projekty:	CETOCOEN Plus CETOCOEN Excellence CETOCOEN Excellence EXposome Powered tools for healthy living in urbAN SEttings Discovering the causes of three poorly understood cancers in Europe BBMRI.cz - Síť českých biobank Výzkumná infrastruktura RECETOX Stárnutí populace a související výzvy pro zdravotní a sociální systémy