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

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

doi:10.1080/15592294.2023.2187172

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

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

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

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.

Original language	English
Article number	2187172
Journal	Epigenetics
Volume	18
Issue number	1
DOIs	https://doi.org/10.1080/15592294.2023.2187172
State	Published - 2023
Externally published	Yes

Funding

Funders	Funder number
HERCULES Center
Western Cape Health Department
South African Medical Research Council
CEO of Paarl Hospital
National Research Foundation South Africa
CIDRI
National Institutes of Health
Discovery Eye Foundation
Fogarty International Center
National Institute of Environmental Health Sciences	P30ES019776
Wellcome Trust	204755/2/16/z, 204755
Eunice Kennedy Shriver National Institute of Child Health and Human Development	R21HD085849
Bill and Melinda Gates Foundation	OPP 1017641

Keywords

Admixed population
Clumping and thresholding
Epigenetic scores
Polygenic DNA methylation

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10.1080/15592294.2023.2187172

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title = "Pruning and thresholding approach for methylation risk scores in multi-ancestry populations",

abstract = "Recent efforts have focused on developing methylation risk scores (MRS), a weighted sum of the individual{\textquoteright}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.",

keywords = "Admixed population, Clumping and thresholding, Epigenetic scores, Polygenic DNA methylation",

author = "Junyu Chen and Evan Gatev and Todd Everson and Conneely, {Karen N.} and Nastassja Koen and Epstein, {Michael P.} and Kobor, {Michael S.} and Zar, {Heather J.} and Stein, {Dan J.} and Anke H{\"u}ls",

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year = "2023",

doi = "10.1080/15592294.2023.2187172",

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AU - Chen, Junyu

AU - Gatev, Evan

AU - Everson, Todd

AU - Conneely, Karen N.

AU - Koen, Nastassja

AU - Epstein, Michael P.

AU - Kobor, Michael S.

AU - Zar, Heather J.

AU - Stein, Dan J.

AU - Hüls, Anke

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AB - 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.

KW - Admixed population

KW - Clumping and thresholding

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KW - Polygenic DNA methylation

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

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