Recent studies suggest that nuclear factor κB-inducing kinase (NIK) is suppressed through constitutive proteasome-mediated degradation regulated by TRAF2, TRAF3 and cIAP1 or cIAP2. Here, we demonstrated that the degradation of NIK occurred upon assembly of a regulatory complex through TRAF3 recruitment of NIK and TRAF2 recruitment of cIAP1 and cIAP2. In contrast to TRAF2 and TRAF3, cIAP1 and cIAP2 seem to play redundant roles in the degradation of NIK, as inhibition of both cIAPs was required for noncanonical NF-κB activation and increased survival and proliferation of primary B lymphocytes. Furthermore, the lethality of TRAF3-deficient mice could be rescued by a single NIK gene, highlighting the importance of tightly regulated NIK.
Upon recognition of viral infection, RIG-I and Helicard recruit a newly identified adapter termed Cardif, which induces type I interferon (IFN)-mediated antiviral responses through an unknown mechanism. Here, we demonstrate that TRAF3, like Cardif, is required for type I interferon production in response to intracellular doublestranded RNA. Cardif-mediated IFNa induction occurs through a direct interaction between the TRAF domain of TRAF3 and a TRAF-interaction motif (TIM) within Cardif. Interestingly, while the entire N-terminus of TRAF3 was functionally interchangeable with that of TRAF5, the TRAF domain of TRAF3 was not. Our data suggest that this distinction is due to an inability of the TRAF domain of TRAF5 to bind the TIM of Cardif. Finally, we show that preventing association of TRAF3 with this TIM by mutating two critical amino acids in the TRAF domain also abolishes TRAF3-dependent IFN production following viral infection. Thus, our findings suggest that the direct and specific interaction between the TRAF domain of TRAF3 and the TIM of Cardif is required for optimal Cardif-mediated antiviral responses.
Canonical and noncanonical nuclear factor κB (NF-κB) signaling are the two basic pathways responsible for the release of NF-κB dimers from their inhibitors. Enhanced NF-κB signaling leads to inflammatory and proliferative diseases; thus, inhibitory pathways that limit its activity are critical. Whereas multiple negative feedback mechanisms control canonical NF-κB signaling, none has been identified for the noncanonical pathway. Here, we describe a mechanism of negative feedback control of noncanonical NF-κB signaling that attenuated the stabilization of NF-κB-inducing kinase (NIK), the central regulatory kinase of the non-canonical pathway, induced by B cell-activating factor receptor (BAFF-R) and lymphotoxin β receptor (LTβR). Inhibitor of κB (IκB) kinase α (IKKα) was previously thought to lie downstream of NIK in the non-canonical NF-κB pathway; we showed that phosphorylation of NIK by IKKα destabilized NIK. In the absence of IKKα-mediated negative feedback, the abundance of NIK increased after receptor ligation. A form of NIK with mutations in the IKKα-targeted serine residues was more stable than wild-type NIK and resulted in increased noncanonical NF-κB signaling. Thus, in addition to the regulation of the basal abundance of NIK in unstimulated cells by a complex containing tumor necrosis factor receptor-associated factor (TRAF) and cellular inhibitor of apoptosis (cIAP) proteins, IKKα-dependent destabilization of NIK prevents the uncontrolled activity of the noncanonical NF-κB pathway after receptor ligation.
Objective To compile current best practices regarding tracheostomy decision making, care, and technical performance during the global COVID-19 pandemic. Data Sources Articles listed in PubMed and Google sources for up-to-date information. Review Methods All sources presenting objective evidence related to the topic were reviewed and distilled. Conclusions Tracheostomy in patients with coronavirus disease should be a rare event yet one that requires significant decision making and procedural deliberation. Indications for surgery must be balanced by risk of disease transmission to health care workers. Considerations are given to personal protective equipment, viral testing, and alternatives. Implications for Practice Otolaryngologists worldwide must be aware of these considerations to provide safe patient care without undue risk to themselves or their hospital coworkers.
TE-VFMs were successfully implanted into 8 rabbits, with minor evidence of scar formation and immune reaction. Vibration was preserved 4 weeks after resecting and reconstructing the complete vocal fold cover layer. Further studies will investigate the mechanism and durability of improvement. TE-VFM with autologous cells is a promising new approach for vocal fold reconstruction.
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