Role of Nuclear Factor-κB in the Antiviral Action of Interferon and Interferon-regulated Gene Expression

Pfeffer, Lawrence M.; Kim, Jong-Gwan; Pfeffer, Susan R.; Carrigan, Dennis J.; Baker, Darren P.; Wei, Lai; Homayouni, Ramin

doi:10.1074/jbc.m308975200

Cited by 61 publications

(64 citation statements)

References 27 publications

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“…For example, tumor necrosis factor-mediated JNK signaling is enhanced in NFB-KO mice (23,24). Moreover, we previously showed that the IFN-induced expression of some ISGs (Mx1 and Nmi) is negatively regulated by NFB, while the expression of other ISGs, such as Ifit1 and Isg15, is enhanced by NFB (6). In the present study, we show that NFB has opposing effects on different ISGs that map to a single genetic locus.…”

Section: Discussionsupporting

confidence: 61%

“…1) were induced by IFN␤ in a dose-dependent manner to higher expression levels in NFB-KO cells than in WT cells. Similarly, we showed previously that Mx1 and Nmi were also induced more in NFB-KO cells than in WT cells by IFN in a dose-dependent manner (6).…”

Section: Identification Of Isgs Thatmentioning

confidence: 73%

“…Are NFB-dependent-We previously reported that NFB plays a role in regulating ISG expression (6). Subsequently, a functional genomics approach was used to monitor the role of NFB in gene expression changes induced by IFN.…”

Section: Identification Of Isgs Thatmentioning

confidence: 99%

“…Control cultures received no IFN but were treated in parallel. Expression values were determined using Affymetrix Microarray Suite (MAS) 5.0 software, and the data were filtered and analyzed using GeneSpring software 7.0 (Silicon Genetics, Inc.) as described previously (6).…”

Section: Identification Of Isgs Thatmentioning

confidence: 99%

“…All data analysis was performed using GeneSpring software 7.0 (Silicon Genetics, Inc.). The MAS 5.0 gene expression values for each gene were normalized as described previously (6). Fold induction by IFN was calculated in matched pairs of WT and NFB-KO MEFs, respectively.…”

Section: Methodsmentioning

confidence: 99%

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NFκB Negatively Regulates Interferon-induced Gene Expression and Anti-influenza Activity

Wei

Sandbulte

Thomas

et al. 2006

Journal of Biological Chemistry

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103

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Type I IFNs 2 (IFN␣, IFN␤, IFN, and IFN) are multifunctional cytokines that are critical in the host defense to infectious agents by modulating innate and adaptive immune responses. IFNs induce their biological effects by regulating the expression of a family of early response genes, called IFN-stimulated genes (ISGs), through JAK-mediated tyrosine-phosphorylation of the STAT factors, STAT1 and STAT2. The phosphorylated STAT proteins dimerize, translocate into the nucleus, and bind to the conserved IFN-stimulus response element (ISRE) within the promoters of ISGs (1). In addition, transcription factors of the IFN regulatory factor (IRF) family have been shown to regulate ISG expression (2). Accumulating evidence indicates that IFNs also activate the nuclear factor B (NFB) transcription factor in a serine/threonine kinase-dependent signaling pathway (3, 4).The mammalian NFB proteins, p50, p52, RelA (p65), RelB, and c-Rel, form homodimers and heterodimers to regulate the expression of genes involved in the immune response, inflammation and cell survival (5). In most cell types, the predominant form of NFB, the p50:p65 heterodimer, is bound to IB inhibitory proteins in the cytoplasm of unstimulated cells. Similar to various other stimuli, IFN␣/␤ activates a phosphatidylinositol 3-kinase/Akt pathway, which results in the dissociation of the inactive cytosolic NFB⅐IB complexes followed by NFB nuclear translocation and DNA binding (3, 4). We previously demonstrated that mouse embryonic fibroblasts (MEFs) derived from mice with germ line deletions of the p50 and p65 genes were resistant to IFN-induced NFB activation and were sensitized to the antiviral action of IFN␤ against vesicular stomatitis virus (6). The present study was undertaken to further define the role of NFB in IFN-induced gene expression and the biological actions of IFN. Gene expression profiling identified 35 ISGs whose induction was highly regulated by NFB. A subset of genes that were induced higher by IFN in NFB knock-out (NFB-KO) cells encoded GTP-binding and antigen presentation proteins, which play critical roles in the antiviral and immunomodulatory activities of IFN, respectively. Quantitative RT-PCR demonstrated that these ISGs were induced more rapidly and at significantly lower IFN concentrations in NFB-KO cells relative to wild-type (WT) MEFs. Chromatin immunoprecipitation (ChIP) assays demonstrated that NFB dimers containing p50 and p65 were basally bound to the promoters of these ISGs. IFN induced the binding of STAT1 and STAT2 to these promoters. However, the kinetics of ISG induction in NFB-KO MEFs by IFN correlated with the promoter binding of IRF1. These results suggest that IFN induction of these genes is negatively regulated by NFB. We also found that NFB suppressed not only the direct antiviral action of IFN against influenza virus but also IFN-induced influenza-specific MHC class I antigen presentation. Together, our results suggest that NFB not only regulates the induction of a subset of IFN-induced genes but also the antiviral an...

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Section: Discussionsupporting

confidence: 61%

Section: Identification Of Isgs Thatmentioning

confidence: 73%

Section: Identification Of Isgs Thatmentioning

confidence: 99%

Section: Identification Of Isgs Thatmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

See 3 more Smart Citations

NFκB Negatively Regulates Interferon-induced Gene Expression and Anti-influenza Activity

Wei

Sandbulte

Thomas

et al. 2006

Journal of Biological Chemistry

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103

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Interferon‐induced TRAIL‐independent cell death in DNase II^−/− embryos

2010

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The chromosomal DNA of apoptotic cells and the nuclear DNA expelled from erythroid precursors is cleaved by DNase II in lysosomes after the cells or nuclei are engulfed by macrophages. DNase II À/À embryos suffer from lethal anemia due to IFN-b produced in the macrophages carrying undigested DNA. Here, we show that Type I IFN induced a caspasedependent cell death in human epithelial cells that were transformed to express a high level of IFN type I receptor. During this death process, a set of genes was strongly activated, one of which encoded TRAIL, a death ligand. A high level of TRAIL mRNA was also found in the fetal liver of the lethally anemic DNase II À/À embryos, and a lack of IFN type I receptor in the DNase II À/À IFN-IR À/À embryos blocked the expression of TRAIL mRNA.However, a null mutation in TRAIL did not rescue the lethal anemia of the DNase II À/À embryos, indicating that TRAIL is dispensable for inducing the apoptosis of erythroid cells in DNase II À/À embryos, and therefore, that there is a TRAIL-independent mechanism for the IFN-induced apoptosis.

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RIG‐I is a key antiviral interferon‐stimulated gene against hepatitis E virus regardless of interferon production

Wang

et al. 2017

Hepatology

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Role of Nuclear Factor-κB in the Antiviral Action of Interferon and Interferon-regulated Gene Expression

Cited by 61 publications

References 27 publications

NFκB Negatively Regulates Interferon-induced Gene Expression and Anti-influenza Activity

NFκB Negatively Regulates Interferon-induced Gene Expression and Anti-influenza Activity

Interferon‐induced TRAIL‐independent cell death in DNase II^−/− embryos

RIG‐I is a key antiviral interferon‐stimulated gene against hepatitis E virus regardless of interferon production

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Role of Nuclear Factor-κB in the Antiviral Action of Interferon and Interferon-regulated Gene Expression

Cited by 61 publications

References 27 publications

NFκB Negatively Regulates Interferon-induced Gene Expression and Anti-influenza Activity

NFκB Negatively Regulates Interferon-induced Gene Expression and Anti-influenza Activity

Interferon‐induced TRAIL‐independent cell death in DNase II−/− embryos

RIG‐I is a key antiviral interferon‐stimulated gene against hepatitis E virus regardless of interferon production

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Product

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Interferon‐induced TRAIL‐independent cell death in DNase II^−/− embryos