Background/Purpose: Major risk factors associated with osteoarthritis (OA) development include age, joint stress/injury, obesity, and genetic predisposition. In recent years, the role epigenetic processes that may be associated with OA have been of increasing interest both as factors implicated in disease development and as powerful diagnostic tools. Here, we set out to identify 5-methyl cytosine DNA methylation patterns associated with OA in participants of the Johnston County Osteoarthritis Project (JoCo OA), an ongoing study of North Carolinians of over 20 years.

Methods:   Genomic DNA was isolated from peripheral blood mononuclear cells (PMNCs) collected from 20 Caucasian, non-smoking, non-drinking women from the JoCo OA cohort. Methylated regions of PMNC 5-methyl cytosine DNA were isolated and amplified using the Methylated CpG Island Recovery Assay (MIRA) and subsequently hybridized to Affymetrix® Human Promoter 1.0R arrays. Controlling for known confounders (e.g. age and body mass index (BMI)), we compared the promoter DNA methylation profiles of >14,000 promoter regions of genes from women with knee OA (n=8) to women without knee OA  (n=12) using regression analysis. Differentially methylated genes were analyzed for associated biological functions, diseases, canonical pathways and molecular networks.

Results: A total of 68 genes were identified that had statistically significant differences in promoter DNA methylation levels in women with knee OA compared to women without knee OA. Most of these genes (n=61) showed hypomethylation in their promoter regions in individuals with knee OA. Analyses of associated biological functions, pathways and molecular networks revealed an enrichment of genes involved in varied cellular functions including tissue development, metabolism, and inflammation (Table). Several of these genes have prior associations with OA, namely connective tissue growth factor (CTGF), eyes absent homolog 4 (Drosophila)(EYA4), growth hormone receptor (GHR), and homeobox A2 (HOXA2).

  Conclusion: We identified genes in PBMCs with altered promoter DNA methylation levels associated with knee OA in this pilot study. Expanding these analyses to include more individuals from the JoCo OA cohort will determine if these DNA methylation profiles may serve as biomarkers of OA and/or provide insight into the role epigenetic alterations may play in OA development.  

Table. Most significant biological functions, canonical pathways and molecular networks associated with

differentially methylated genes in individuals with OA.