Fine-tuning of inflammatory responses by microRNAs (miRNAs) is complex, as they can both enhance and repress expression of pro-inflammatory mediators. In this study, we investigate inflammatory responses following global miRNA depletion, to better define the overall contribution of miRNAs to inflammation. We demonstrate that miRNAs positively regulate Toll-like receptor signaling using inducible Dicer1 deletion and global miRNA depletion. We establish an important contribution of miR-19b in this effect, which potentiates nuclear factor-κB (NF-κB) activity in human and mouse cells. Positive regulation of NF-κB signaling by miR-19b involves the coordinated suppression of a regulon of negative regulators of NF-κB signaling (including A20/Tnfaip3, Rnf11, Fbxl11/Kdm2a and Zbtb16). Transfection of miR-19b mimics exacerbated the inflammatory activation of rheumatoid arthritis primary fibroblast-like synoviocytes, demonstrating its physiological importance in the pathology of this disease. This study constitutes, to our knowledge, the first description of a miR-19 regulon that controls NF-κB signaling, and suggests that targeting this miRNA and linked family members could regulate the activity of NF-κB signaling in inflammation.
The discovery of microRNAs (miRNAs) in the early 1990's has revolutionized our thinking of post-transcriptional gene control. miRNAs are involved in the regulation of almost every cellular and developmental process in eukaryotic organisms. In the context of infection and immunity, miRNAs play critical roles controlling processes involved in pathogen clearance, while ensuring a rapid return to homeostasis. In this review, we provide a broad overview of the miRNAs that have been implicated in innate immunity and inflammation in mammals over the past decade. We discuss how most miRNAs can have dual activities on inflammation, suggesting that modulation of their activity for therapeutic purposes may be context-dependent.
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