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Aging the brain: multi-region methylation principal component based clock in the context of Alzheimer's disease

Authors :
Kyra L. Thrush
David A. Bennett
Christopher Gaiteri
Steve Horvath
Christopher H. van Dyck
Albert T. Higgins-Chen
Morgan E. Levine
Source :
Aging. 14(14)
Publication Year :
2022

Abstract

Alzheimer's disease (AD) risk increases exponentially with age and is associated with multiple molecular hallmarks of aging, one of which is epigenetic alterations. Epigenetic age predictors based on 5' cytosine methylation (DNAm), or epigenetic clocks, have previously suggested that epigenetic age acceleration may occur in AD brain tissue. Epigenetic clocks are promising tools for the quantification of biological aging, yet we hypothesize that investigation of brain aging in AD will be assisted by the development of brain-specific epigenetic clocks. Therefore, we generated a novel age predictor termed PCBrainAge that was trained solely in cortical samples. This predictor utilizes a combination of principal components analysis and regularized regression, which reduces technical noise and greatly improves test-retest reliability. To characterize the scope of PCBrainAge's utility, we generated DNAm data from multiple brain regions in a sample from the Religious Orders Study and Rush Memory and Aging Project. PCBrainAge captures meaningful heterogeneity of aging: Its acceleration demonstrates stronger associations with clinical AD dementia, pathologic AD, and APOE ε4 carrier status compared to extant epigenetic age predictors. It further does so across multiple cortical and subcortical regions. Overall, PCBrainAge's increased reliability and specificity makes it a particularly promising tool for investigating heterogeneity in brain aging, as well as epigenetic alterations underlying AD risk and resilience.

Details

ISSN :
19454589
Volume :
14
Issue :
14
Database :
OpenAIRE
Journal :
Aging
Accession number :
edsair.doi.dedup.....19c53b8e72a88b4817294a60a85a51d3