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Pruning and thresholding approach for methylation risk scores in multi-ancestry populations

Junyu Chen, Evan Gatev, Todd M. Everson, Karen N. Conneely, Nastassja Koen, Michael P. Epstein, Michael S. Kobor, Heather J. Zar, Dan J. Stein, Anke Hüls

2023Epigenetics18 citationsDOIOpen Access PDF

Abstract

Recent efforts have focused on developing methylation risk scores (MRS), a weighted sum of the individual's DNA methylation (DNAm) values of pre-selected CpG sites. Most of the current MRS approaches that utilize Epigenome-wide association studies (EWAS) summary statistics only include genome-wide significant CpG sites and do not consider co-methylation. New methods that relax the p-value threshold to include more CpG sites and account for the inter-correlation of DNAm might improve the predictive performance of MRS. We paired informed co-methylation pruning with P-value thresholding to generate pruning and thresholding (P+T) MRS and evaluated its performance among multi-ancestry populations. Through simulation studies and real data analyses, we demonstrated that pruning provides an improvement over simple thresholding methods for prediction of phenotypes. We demonstrated that European-derived summary statistics can be used to develop P+T MRS among other populations such as African populations. However, the prediction accuracy of P+T MRS may differ across multi-ancestry population due to environmental/cultural/social differences.

Topics & Concepts

dNaMBiologyThresholdingDNA methylationCpG sitePruningPopulationMethylationComputational biologyCorrelationEvolutionary biologyStatisticsGeneticsComputer scienceArtificial intelligenceDemographyDNAMathematicsGeneImage (mathematics)AgronomyGeometryGene expressionSociologyEpigenetics and DNA MethylationGenetic Syndromes and ImprintingGenetic Associations and Epidemiology
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