Genetic Variants Modify the Effect of Age on APOE Methylation in the Genetics of Lipid Lowering Drugs and Diet Network Study

Overview

Journal Aging Cell

Specialties Cell Biology
Geriatrics

Date 2014 Dec 6

PMID 25476875

Citations 24

Authors

Yiyi Ma

Caren E Smith

Chao-Qiang Lai

Marguerite R Irvin

Laurence D Parnell

Yu-Chi Lee

Lucia Pham

Stella Aslibekyan

Steven A Claas

Michael Y Tsai

Ingrid B Borecki

Edmond K Kabagambe

Silvia Berciano

Jose M Ordovas

Devin M Absher

Donna K Arnett

Affiliations

Soon will be listed here.

Abstract

Although apolipoprotein E (APOE) variants are associated with age-related diseases, the underlying mechanism is unknown and DNA methylation may be a potential one. With methylation data, measured by the Infinium Human Methylation 450 array, from 993 participants (age ranging from 18 to 87 years) in the Genetics of Lipid Lowering Drugs and Diet Network (GOLDN) study, and from Encyclopedia of DNA Elements (ENCODE) consortium, combined with published methylation datasets, we described the methylation pattern of 13 CpG sites within APOE locus, their correlations with gene expression across cell types, and their relationships with age, plasma lipids, and sequence variants. Based on methylation levels and the genetic regions, we categorized the 13 APOE CpG sites into three groups: Group 1 showed hypermethylation (> 50%) and were located in the promoter region, Group 2 exhibited hypomethylation (< 50%) and were located in the first two exons and introns, and Group 3 showed hypermethylation (> 50%) and were located in the exon 4. APOE methylation was negatively correlated with gene expression (minimum r = -0.66, P = 0.004). APOE methylation was significantly associated with age (minimum P = 2.06E-08) and plasma total cholesterol (minimum P = 3.53E-03). Finally, APOE methylation patterns differed across APOE ε variants (minimum P = 3.51E-05) and the promoter variant rs405509 (minimum P = 0.01), which further showed a significant interaction with age (P = 0.03). These findings suggest that methylation may be a potential mechanistic explanation for APOE functions related to aging and call for further molecular mechanistic studies.

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