The adaptor and signaling proteins TRAF2, TRAF3 and cIAP1 and cIAP2 were suggested to inhibit alternative nuclear factor kappa B (NF-κB) signaling in resting cells by targeting NF-κB inducing kinase (NIK) to ubiquitin-dependent degradation, thus preventing processing of the NF-κB2 precursor protein p100 to release p52. However, the respective functions of TRAF2 and TRAF3 in NIK degradation and activation of alternative NF-κB signaling has remained elusive. We now show that CD40 or BAFF receptor activation resulted in TRAF3 degradation in a cIAP1-cIAP2-and TRAF2-dependent way due to enhanced cIAP1, cIAP2 TRAF3-directed ubiquitin ligase activity. Receptor-induced activation of cIAP1 and cIAP2 correlated with their K63-linked ubiquitination by TRAF2. Degradation of TRAF3 prevented association of NIK with the cIAP1-cIAP2-TRAF2 ubiquitin ligase complex, which resulted in NIK stabilization and NF-κB2-p100 processing. Constitutive activation of this pathway causes perinatal lethality and lymphoid defects.
Tumour necrosis factor receptor (TNFR)-associated factor (TRAF) proteins are essential components of signalling pathways activated by TNFR or Toll-like receptor (TLR) family members. Acting alone or in combination, the seven known TRAFs control many biological processes, including cytokine production and cell survival. The function of one TRAF in particular, TRAF3, remained elusive for many years. Recent work has revealed that TRAF3 is a highly versatile regulator that positively controls type I interferon production, but negatively regulates mitogen-activated protein kinase activation and alternative nuclear factor-κB signalling. In this Review, we discuss our current understanding of the role of TRAF3 in TNFR and TLR signalling pathways, and its role in disease.
Balanced production of type I interferons (IFN) and proinflammatory cytokines upon engagement of Toll-like receptors (TLRs), which signal via adaptors containing a Toll-IL-1-Receptor (TIR) domain, such as MyD88 and TRIF, has been proposed to control the pathogenesis of autoimmune disease and tumor responses to inflammation. Here we show that TRAF3, a ubiquitin ligase that interacts with both MyD88 and TRIF, differentially regulated production of IFN and proinflammatory cytokines. Degradative TRAF3 ubiquitination during MyD88-dependent TLR signaling was essential for activation of mitogen-activated protein kinases (MAPKs) and inflammatory cytokine production. By contrast, TRIF-dependent signaling triggered non-canonical TRAF3 self-ubiquitination that activated the IFN response. Inhibition of degradative TRAF3 ubiquitination prevented expression of all proinflammatory cytokines without impacting the IFN response.
NOD2, a NOD-like receptor (NLR), is an intracellular sensor of bacterial muramyl dipeptide (MDP) that was suggested to promote secretion of the proinflammatory cytokine IL-1. Yet, the molecular mechanism by which NOD2 can stimulate IL-1 secretion, and its biological significance were heretofore unknown. We found that NOD2 through its N-terminal caspase recruitment domain directly binds and activates caspase-1 to trigger IL-1 processing and secretion in MDP-stimulated macrophages, whereas the C-terminal leucine-rich repeats of NOD2 prevent caspase-1 activation in nonstimulated cells. MDP challenge induces the association of NOD2 with another NLR protein, NALP1, and gel filtration analysis revealed the formation of a complex consisting of NOD2, NALP1, and caspase-1. Importantly, Bacillus anthracis infection induces IL-1 secretion in a manner that depended on caspase-1 and NOD2. In vitro, Anthrax lethal toxin strongly potentiated IL-1 secretion, and that response was NOD2 and caspase-1-dependent. Thus, NOD2 plays a key role in the B. anthracis-induced inflammatory response by being a critical mediator of IL-1 secretion.inflammasome ͉ lethal toxin ͉ LPS
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