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Male-specific age estimation based on Y-chromosomal DNA methylation

Athina Vidaki, Diego Montiel González, Benjamin Planterose Jiménez, Manfred Kayser

2021Aging38 citationsDOIOpen Access PDF

Abstract

Although DNA methylation variation of autosomal CpGs provides robust age predictive biomarkers, no male-specific age predictor exists based on Y-CpGs yet. Since sex chromosomes play an important role in aging, a Y-chromosome-based age predictor would allow studying male-specific aging effects and would also be useful in forensics. Here, we used blood-based DNA methylation microarray data of 1,057 males from six cohorts aged 15-87 and identified 75 Y-CpGs with an interquartile range of ≥0.1. Of these, 22 and six were significantly hyper- and hypomethylated with age (p(cor)<0.05, Bonferroni), respectively. Amongst several machine learning algorithms, a model based on support vector machines with radial kernel performed best in male-specific age prediction. We achieved a mean absolute deviation (MAD) between true and predicted age of 7.54 years (cor=0.81, validation) when using all 75 Y-CpGs, and a MAD of 8.46 years (cor=0.73, validation) based on the most predictive 19 Y-CpGs. The accuracies of both age predictors did not worsen with increased age, in contrast to autosomal CpG-based age predictors that are known to predict age with reduced accuracy in the elderly. Overall, we introduce the first-of-its-kind male-specific epigenetic age predictor for future applications in aging research and forensics.

Topics & Concepts

DNA methylationCpG siteEpigeneticsBonferroni correctionMethylationBiologyMicroarrayBioinformaticsMedicineComputational biologyGeneticsDNAGeneGene expressionStatisticsMathematicsEpigenetics and DNA MethylationGenetic Syndromes and ImprintingGenetic Associations and Epidemiology