Yue Tang scite author profile

ObjectiveMicroRNA have recently been identified as regulators that modulate target gene expression and are involved in shaping the immune response. This study was undertaken to investigate the contribution of microRNA‐146a (miR‐146a), which was identified in the pilot expression profiling step, to the pathogenesis of systemic lupus erythematosus (SLE).MethodsTaqMan microRNA assays of peripheral blood leukocytes were used for comparison of expression levels of microRNA between SLE patients and controls. Transfection and stimulation of cultured cells were conducted to determine the biologic function of miR‐146a. Bioinformatics prediction and validation by reporter gene assay and Western blotting were performed to identify miR‐146a targets.ResultsProfiling of 156 miRNA in SLE patients revealed the differential expression of multiple microRNA, including miR‐146a, a negative regulator of innate immunity. Further analysis showed that underexpression of miR‐146a negatively correlated with clinical disease activity and with interferon (IFN) scores in patients with SLE. Of note, overexpression of miR‐146a reduced, while inhibition of endogenous miR‐146a increased, the induction of type I IFNs in peripheral blood mononuclear cells (PBMCs). Furthermore, miR‐146a directly repressed the transactivation downstream of type I IFN. At the molecular level, miR‐146a could target IFN regulatory factor 5 and STAT‐1. More importantly, introduction of miR‐146a into the patients' PBMCs alleviated the coordinate activation of the type I IFN pathway.ConclusionThe microRNA miR‐146a is a negative regulator of the IFN pathway. Underexpression of miR‐146a contributes to alterations in the type I IFN pathway in lupus patients by targeting the key signaling proteins. The findings provide potential novel strategies for therapeutic intervention.

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MicroRNA-21 and MicroRNA-148a Contribute to DNA Hypomethylation in Lupus CD4+ T Cells by Directly and Indirectly Targeting DNA Methyltransferase 1

Pan

Zhu²,

Yuan

et al. 2010

508

369

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Systemic lupus erythematosus is a complex autoimmune disease caused by genetic and epigenetic alterations. DNA methylation abnormalities play an important role in systemic lupus erythematosus disease processes. MicroRNAs (miRNAs) have been implicated as fine-tuning regulators controlling diverse biological processes at the level of posttranscriptional repression. Dysregulation of miRNAs has been described in various disease states, including human lupus. Whereas previous studies have shown miRNAs can regulate DNA methylation by targeting the DNA methylation machinery, the role of miRNAs in aberrant CD4+ T cell DNA hypomethylation of lupus is unclear. In this study, by using high-throughput microRNA profiling, we identified that two miRNAs (miR-21 and miR-148a) overexpressed in CD4+ T cells from both patients with lupus and lupus-prone MRL/lpr mice, which promote cell hypomethylation by repressing DNA methyltransferase 1 (DNMT1) expression. This in turn leads to the overexpression of autoimmune-associated methylation-sensitive genes, such as CD70 and LFA-1, via promoter demethylation. Further experiments revealed that miR-21 indirectly downregulated DNMT1 expression by targeting an important autoimmune gene, RASGRP1, which mediated the Ras–MAPK pathway upstream of DNMT1; miR-148a directly downregulated DNMT1 expression by targeting the protein coding region of its transcript. Additionally, inhibition of miR-21 and miR-148a expression in CD4+ T cells from patients with lupus could increase DNMT1 expression and attenuate DNA hypomethylation. Together, our data demonstrated a critical functional link between miRNAs and the aberrant DNA hypomethylation in lupus CD4+ T cells and could help to develop new therapeutic approaches.

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Yue Tang

MicroRNA‐146a contributes to abnormal activation of the type I interferon pathway in human lupus by targeting the key signaling proteins

MicroRNA-21 and MicroRNA-148a Contribute to DNA Hypomethylation in Lupus CD4+ T Cells by Directly and Indirectly Targeting DNA Methyltransferase 1

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