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Rheumatoid arthritis–associated DNA methylation sites in peripheral blood mononuclear cells
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Rheumatoid arthritis–associated DNA methylation sites in peripheral blood mononuclear cells
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Rheumatoid arthritis–associated DNA methylation sites in peripheral blood mononuclear cells
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Journal Article
Rheumatoid arthritis–associated DNA methylation sites in peripheral blood mononuclear cells
2019
Overview
ObjectivesTo identify novel DNA methylation sites significant for rheumatoid arthritis (RA) and comprehensively understand their underlying pathological mechanism.MethodsWe performed (1) genome-wide DNA methylation and mRNA expression profiling in peripheral blood mononuclear cells from RA patients and health controls; (2) correlation analysis and causal inference tests for DNA methylation and mRNA expression data; (3) differential methylation genes regulatory network construction; (4) validation tests of 10 differential methylation positions (DMPs) of interest and corresponding gene expressions; (5) correlation between PARP9 methylation and its mRNA expression level in Jurkat cells and T cells from patients with RA; (6) testing the pathological functions of PARP9 in Jurkat cells.ResultsA total of 1046 DNA methylation positions were associated with RA. The identified DMPs have regulatory effects on mRNA expressions. Causal inference tests identified six DNA methylation–mRNA–RA regulatory chains (eg, cg00959259-PARP9-RA). The identified DMPs and genes formed an interferon-inducible gene interaction network (eg, MX1, IFI44L, DTX3L and PARP9). Key DMPs and corresponding genes were validated their differences in additional samples. Methylation of PARP9 was correlated with mRNA level in Jurkat cells and T lymphocytes isolated from patients with RA. The PARP9 gene exerted significant effects on Jurkat cells (eg, cell cycle, cell proliferation, cell activation and expression of inflammatory factor IL-2).ConclusionsThis multistage study identified an interferon-inducible gene interaction network associated with RA and highlighted the importance of PARP9 gene in RA pathogenesis. The results enhanced our understanding of the important role of DNA methylation in pathology of RA.
Publisher
Elsevier Limited
Subject
/ Arthritis, Rheumatoid - genetics
/ Female
/ Gene Regulatory Networks - genetics
/ Genomes
/ Genomics
/ Humans
/ Leukocytes, Mononuclear - metabolism
/ Lupus
/ Male
/ Myxovirus resistance proteins
/ Neoplasm Proteins - metabolism
/ Peripheral blood mononuclear cells
