Phenome-wide analyses identify an association between the parent-of-origin effects dependent methylome and the rate of aging in humans

Author:

Gao ChenhaoORCID,Amador Carmen,Walker Rosie M.,Campbell Archie,Madden Rebecca A.,Adams Mark J.,Bai Xiaomeng,Liu Ying,Li Miaoxin,Hayward Caroline,Porteous David J.,Shen Xueyi,Evans Kathryn L.,Haley Chris S.,McIntosh Andrew M.,Navarro Pau,Zeng YanniORCID

Abstract

Abstract Background The variation in the rate at which humans age may be rooted in early events acting through the genomic regions that are influenced by such events and subsequently are related to health phenotypes in later life. The parent-of-origin-effect (POE)-regulated methylome includes regions enriched for genetically controlled imprinting effects (the typical type of POE) and regions influenced by environmental effects associated with parents (the atypical POE). This part of the methylome is heavily influenced by early events, making it a potential route connecting early exposures, the epigenome, and aging. We aim to test the association of POE-CpGs with early and later exposures and subsequently with health-related phenotypes and adult aging. Results We perform a phenome-wide association analysis for the POE-influenced methylome using GS:SFHS (Ndiscovery = 5087, Nreplication = 4450). We identify and replicate 92 POE-CpG-phenotype associations. Most of the associations are contributed by the POE-CpGs belonging to the atypical class where the most strongly enriched associations are with aging (DNAmTL acceleration), intelligence, and parental (maternal) smoking exposure phenotypes. A proportion of the atypical POE-CpGs form co-methylation networks (modules) which are associated with these phenotypes, with one of the aging-associated modules displaying increased within-module methylation connectivity with age. The atypical POE-CpGs also display high levels of methylation heterogeneity, fast information loss with age, and a strong correlation with CpGs contained within epigenetic clocks. Conclusions These results identify the association between the atypical POE-influenced methylome and aging and provide new evidence for the “early development of origin” hypothesis for aging in humans.

Funder

General Program of National Natural Science Foundation of China

NIH

UKRI

National Key Research & Development Program of China

MRC Human Genetics Unit programme grant

Wellcome Trust Strategic Award

the Chief Scientist Office of the Scottish Government Health Directorates

Scottish Funding Council

Publisher

Springer Science and Business Media LLC

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