Abstract

To evaluate DNA methylation sites and gene expression associated with coronary artery disease (CAD) and the possible pathological mechanism involved, we performed (1) genome-wide DNA methylation and mRNA expression profiling in peripheral blood datasets from the Gene Expression Omnibus repository of CAD samples and controls; (2) functional enrichment analysis and differential methylation gene regulatory network construction; (3) validation tests of 11 differential methylation positions of interest and the corresponding gene expression; and (4) correlation analysis for DNA methylation and mRNA expression data. A total of 669 differentially expressed mRNAs were matched to differentially methylated genes. After disease ontology, Kyoto Encyclopedia of Genes and Genomes pathway, gene ontology, protein-protein interaction and network construction and module analyses, 11 differentially methylated positions (DMPs) corresponding to 11 unique genes were observed: <i>BDNF</i> - cg26949694, <i>BTRC</i> - cg24381155, <i>CDH5</i> - cg02223351, <i>CXCL12</i> - cg11267527, <i>EGFR</i> - cg27637738, <i>IL-6</i> - cg13104385, <i>ITGB1</i> - cg20545410, <i>PDGFRB</i> - cg25613180, <i>PIK3R1</i>- cg00559992, <i>PLCB1</i> - cg27178677 and <i>PTPRC</i> - cg09247619. After validation tests of 11 DMPs of interest and the corresponding gene expression, we found that <i>CXCL12</i> was less hypomethylated in the CAD group, whereas the relative expression of <i>ITGB1</i>, <i>PDGFRB</i> and <i>PIK3R1</i> was lower in CAD samples, and <i>CXCL12</i> and <i>ITGB1</i> methylation was negatively correlated with their expression. This study identified the correlation between DNA methylation and gene expression and highlighted the importance of <i>CXCL12</i> in CAD pathogenesis.