Xiaojun Xia scite author profile

Summary Stringent control of the NF-κB and type I interferon pathways is critical to effective host immune responses, yet the molecular mechanisms that negatively regulate these pathways are poorly understood. Here we show that NLRC5, a member of the NOD-like protein family, can inhibit the IKK complex and RIG-I/MDA5 function. NLRC5 strongly inhibited NF-κB-dependent responses by interacting with IKKα/IKKβ and blocking their phosphorylation. It also interacted with RIG-I and MDA5, but not with MAVS, to potently inhibit RIG-I-like receptor-mediated type I interferon responses. Consistent with these observations, NLRC5-specific siRNA knockdown not only enhanced the activation of NF-κB and its responsive genes, TNF-α and IL-6, but also promoted type I interferon signaling and antiviral immunity. Our findings identify NLRC5 as a key negative regulator that blocks two central components of the NF-κB and type I interferon pathways, and hence is a pivotal element in the homeostatic control of the innate immune system.

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NLRX1 Negatively Regulates TLR-Induced NF-κB Signaling by Targeting TRAF6 and IKK

Xia

et al. 2011

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SUMMARY Tight regulation of NF-κB signaling is essential for innate and adaptive immune responses, yet the molecular mechanisms responsible for its negative regulation are not completely understood. Here we report that NLRX1, a NOD-like receptor family member, negatively regulates Toll-like receptor-mediated NF-κB activation. NLRX1 interacts with TRAF6 or IκB kinase (IKK) in an activation signal-dependent fashion. Upon LPS stimulation, NLRX1 is rapidly ubiquitinated, disassociates from TRAF6 and then binds to the IKK complex, resulting in inhibition of IKKα/β phosphorylation and NF-κB activation. Knockdown of NLRX1 in various cell types markedly enhances IKK phosphorylation and the production of NF-κB-responsive cytokines after LPS stimulation. We further provide in vivo evidence that NLRX1 knockdown in mice markedly enhances susceptibility to LPS-induced septic shock and plasma IL-6 level. Our study identifies a previously unrecognized role for NLRX1 in the negative regulation of TLR-induced NF-κB activation by dynamically interacting with TRAF6 and the IKK complex.

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IKKα Is Required to Maintain Skin Homeostasis and Prevent Skin Cancer

et al. 2008

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It has long been known that excessive mitotic activity due to H-Ras can block keratinocyte differentiation and cause skin cancer. It is not clear whether there are any innate surveillants that are able to ensure that keratinocytes undergo terminal differentiation, preventing the disease. IKKalpha induces keratinocyte terminal differentiation, and its downregulation promotes skin tumor development. However, its intrinsic function in skin cancer is unknown. Here, we found that mice with IKKalpha deletion in keratinocytes develop a thickened epidermis and spontaneous squamous cell-like carcinomas. Inactivation of epidermal growth factor receptor (EGFR) or reintroduction of IKKalpha inhibits excessive mitosis, induces terminal differentiation, and prevents skin cancer through repressing an EGFR-driven autocrine loop. Thus, IKKalpha serves as an innate surveillant.

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Tumour heterogeneity and intercellular networks of nasopharyngeal carcinoma at single cell resolution

et al. 2021

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The heterogeneous nature of tumour microenvironment (TME) underlying diverse treatment responses remains unclear in nasopharyngeal carcinoma (NPC). Here, we profile 176,447 cells from 10 NPC tumour-blood pairs, using single-cell transcriptome coupled with T cell receptor sequencing. Our analyses reveal 53 cell subtypes, including tumour-infiltrating CD8+ T, regulatory T (Treg), and dendritic cells (DCs), as well as malignant cells with different Epstein-Barr virus infection status. Trajectory analyses reveal exhausted CD8+ T and immune-suppressive TNFRSF4+ Treg cells in tumours might derive from peripheral CX3CR1+CD8+ T and naïve Treg cells, respectively. Moreover, we identify immune-regulatory and tolerogenic LAMP3+ DCs. Noteworthily, we observe intensive inter-cell interactions among LAMP3+ DCs, Treg, exhausted CD8+ T, and malignant cells, suggesting potential cross-talks to foster an immune-suppressive niche for the TME. Collectively, our study uncovers the heterogeneity and interacting molecules of the TME in NPC at single-cell resolution, which provide insights into the mechanisms underlying NPC progression and the development of precise therapies for NPC.

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USP19 modulates autophagy and antiviral immune responses by deubiquitinating Beclin‐1

et al. 2016

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Autophagy, mediated by a number of autophagy-related (ATG) proteins, plays an important role in the bulk degradation of cellular constituents. Beclin-1 (also known as Atg6 in yeast) is a core protein essential for autophagic initiation and other biological processes. The activity of Beclin-1 is tightly regulated by multiple post-translational modifications, including ubiquitination, yet the molecular mechanism underpinning its reversible deubiquitination remains poorly defined. Here, we identified ubiquitin-specific protease 19 (USP19) as a positive regulator of autophagy, but a negative regulator of type I interferon (IFN) signaling.USP19 stabilizes Beclin-1 by removing the K11-linked ubiquitin chains of Beclin-1 at lysine 437. Moreover, we foundthat USP19 negatively regulates type IIFNsignaling pathway, by blockingRIG-I-MAVSinteraction in a Beclin-1-dependent manner. Depletion of eitherUSP19 or Beclin-1 inhibits autophagic flux and promotes type IIFNsignaling as well as cellular antiviral immunity. Our findings reveal novel dual functions of theUSP19-Beclin-1 axis by balancing autophagy and the production of type IIFNs.

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Xiaojun Xia

NLRC5 Negatively Regulates the NF-κB and Type I Interferon Signaling Pathways

NLRX1 Negatively Regulates TLR-Induced NF-κB Signaling by Targeting TRAF6 and IKK

IKKα Is Required to Maintain Skin Homeostasis and Prevent Skin Cancer

Tumour heterogeneity and intercellular networks of nasopharyngeal carcinoma at single cell resolution

USP19 modulates autophagy and antiviral immune responses by deubiquitinating Beclin‐1

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