Abstract
Inflammation can cause endoplasmic reticulum (ER) stress and therefore activates the unfolded protein response (UPR). ER stress and the consequent UPR have the potential to activate NF-κB. However, the factors mediating the crosstalk between ER stress and the NF-κB pathway remain unclear. Here, we determined that ER stress inducible protein Mesencephalic Astrocyte-derived Neurotrophic Factor (MANF) was up-regulated in autoimmune diseases and inflammatory disease models. Inflammation caused MANF to relocalize to the nuclei. MANF interacted with the DNA binding domain of p65 through its C-terminal SAP-like domain in the nuclei under the condition of inflammation or ER stress. MANF consequently inhibited p65-mediated transcriptional activation by interfering with the binding of p65 to its target genes promoters. Consistently, MANF suppressed the expressions of NF-κB-dependent target genes and the proliferation of inflammatory synoviocytes. These findings suggest that MANF may be a negative regulator of inflammation and mediate the crosstalk between the NF-κB pathway and ER stress.
Highlights
Inflammation can cause endoplasmic reticulum (ER) stress and activates the unfolded protein response (UPR)
We found that Mesencephalic Astrocyte-derived Neurotrophic Factor (MANF) mRNA was remarkably increased both in the peripheral white blood cells (PWBC) (Fig. 1h) and in the synovial tissues of antigen-induced arthritis (AIA) rabbits (Fig. 1f–g), compared with that from the sham controls
All three main branches of the UPR have been shown to mediate proinflammatory transcriptional programs
Summary
Inflammation can cause endoplasmic reticulum (ER) stress and activates the unfolded protein response (UPR). We determined that ER stress inducible protein Mesencephalic Astrocyte-derived Neurotrophic Factor (MANF) was up-regulated in autoimmune diseases and inflammatory disease models. MANF suppressed the expressions of NF-kB-dependent target genes and the proliferation of inflammatory synoviocytes. These findings suggest that MANF may be a negative regulator of inflammation and mediate the crosstalk between the NF-kB pathway and ER stress. Activated PERK-eIF2a causes translational arrest, which leads to a decrease in IkB protein level and a consequent increase in the ratio of NF-kB to IkB This ratio change in the ratio causes the release of NF-kB protein, which performs its pro-inflammatory transcriptional role in the nucleus[10]. This study suggests that MANF may be a novel negative regulator of inflammation by interacting with p65
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