Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.7.11.10 (IKK)
4,900 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The IKKbeta and NEMO/IKKgamma subunits of the NF-kappaB-activating signalsome complex are known to be essential for activating NF-kappaB by inflammatory and other stress-like stimuli. However, the IKKalpha subunit is believed to be dispensable for the latter responses and instead functions as an in vivo mediator of other novel NF-kappaB-dependent and -independent functions. In contrast to this generally accepted view of IKKalpha's physiological functions, we demonstrate in mouse embryonic fibroblasts (MEFs) that, akin to IKKbeta and NEMO/IKKgamma, IKKalpha is also a global regulator of tumor necrosis factor alpha- and IL-1-responsive IKK signalsome-dependent target genes including many known NF-kappaB targets such as serum amyloid A3, C3, interleukin (IL)-6, IL-11, IL-1 receptor antagonist, vascular endothelial growth factor, Ptx3, beta(2)-microglobulin, IL-1alpha, Mcp-1 and -3, RANTES (regulated on activation normal T cell expressed and secreted), Fas antigen, Jun-B, c-Fos, macrophage colony-stimulating factor, and granulocyte-macrophage colony-stimulating factor. Only a small number of NF-kappaB-dependent target genes were preferentially dependent on IKKalpha or IKKbeta. Constitutive expression of a trans-dominant IkappaBalpha superrepressor (IkappaBalphaSR) in wild type MEFs confirmed that these signalsome-dependent target genes were also dependent on NF-kappaB. A subset of NF-kappaB target genes were IKK-dependent in the absence of exogenous stimuli, suggesting that the signalsome was also required to regulate basal levels of activated NF-kappaB in established MEFs. Overall, a sizable number of novel NF-kappaB/IKK-dependent genes were identified including Secreted Frizzled, cadherin 13, protocadherin 7, CCAAT/enhancer-binding protein-beta and -delta, osteoprotegerin, FOXC2 and FOXF2, BMP-2, p75 neurotrophin receptor, caspase-11, guanylate-binding proteins 1 and 2, ApoJ/clusterin, interferon (alpha and beta) receptor 2, decorin, osteoglycin, epiregulin, proliferins 2 and 3, stromal cell-derived factor, and cathepsins B, F, and Z. SOCS-3, a negative effector of STAT3 signaling, was found to be an NF-kappaB/IKK-induced gene, suggesting that IKK-mediated NF-kappaB activation can coordinately illicit negative effects on STAT signaling.
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PMID:IKKalpha, IKKbeta, and NEMO/IKKgamma are each required for the NF-kappa B-mediated inflammatory response program. 1222 Oct 85

Extensive data indicate that the transcription factor NF kappa B is activated by signals downstream of oncoproteins such as Ras or breakpoint cluster region (BCR)-ABL. Consistent with this, evidence has been presented that NF kappa B activity is required for Ras and BCR-ABL to transform cells. However, it remains unclear whether these oncoproteins activate a full spectrum of NF kappa B-dependent gene expression or whether they may augment or interfere with other stimuli that activate NF kappa B. The data presented here indicate that BCR-ABL expression in 32D myeloid cells or oncogenic Ras expression in murine fibroblasts blocks the ability of tumor necrosis factor (TNF) to activate NF kappa B. This suppression of NF kappa B is manifested by an inhibition of TNF-induced inhibitor of NF kappa B (IKK) activity and NF kappa B DNA binding potential but not by blocking TNF-induced nuclear accumulation of NF kappa B/p65. The inhibition of NF kappa B is not observed in oncogenic Raf-expressing cells and is not fully restored by the suppression of PI3-kinase or MEK pathways. Oncogenic Ras suppresses the ability of TNF to activate the expression of NF kappa B-dependent genes, such as iNOS (inducible nitric oxide synthase) and RANTES (regulated on activation normal T-cell expressed and secreted). These studies suggest that the ability of Ras and BCR-ABL to activate NF kappa B involves an uncharacterized pathway that does not involve classic IKK activity and that suppresses the TNF-induced IKK pathway through a Raf/MEK/Erk-independent mechanism.
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PMID:Oncoprotein suppression of tumor necrosis factor-induced NF kappa B activation is independent of Raf-controlled pathways. 1285 13

Virus infection, double-stranded RNA, and lipopolysaccharide each induce the expression of genes encoding IFN-alpha and -beta and chemokines, such as RANTES (regulated on activation, normal T cell expressed and secreted) and IP-10 (IFN-gamma inducible protein 10). This induction requires the coordinate activation of several transcription factors, including IFN-regulatory factor 3 (IRF3). The signaling pathways leading to IRF3 activation are triggered by the binding of pathogen-specific products to Toll-like receptors and culminate in the phosphorylation of specific serine residues in the C terminus of IRF3. Recent studies of human cell lines in culture have implicated two noncanonical IkappaB kinase (IKK)-related kinases, IKK-epsilon and Traf family member-associated NF-kappaB activator (TANK)-binding kinase 1 (TBK1), in the phosphorylation of IRF3. Here, we show that purified recombinant IKK-epsilon and TBK1 directly phosphorylate the critical serine residues in IRF3. We have also examined the expression of IRF3-dependent genes in mouse embryonic fibroblasts (MEFs) derived from Tbk1(-/-) mice, and we show that TBK1 is required for the activation and nuclear translocation of IRF3 in these cells. Moreover, Tbk1(-/-) MEFs show marked defects in IFN-alpha and -beta, IP-10, and RANTES gene expression after infection with either Sendai or Newcastle disease viruses or after engagement of the Toll-like receptors 3 and 4 by double-stranded RNA and lipopolysaccharide, respectively. Finally, TRIF (TIR domain-containing adapter-inducing IFN-beta), fails to activate IRF3-dependent genes in Tbk1(-/-) MEFs. We conclude that TBK1 is essential for IRF3-dependent antiviral gene expression.
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PMID:IFN-regulatory factor 3-dependent gene expression is defective in Tbk1-deficient mouse embryonic fibroblasts. 1471 69

Human bronchial epithelial cell pro-inflammatory molecule expression plays a role in the pathogenesis of airway diseases. We hypothesize that Yersinia outer protein-J (YopJ), a Yersinia virulence effector which inhibits mitogen activated protein (MAP) kinase kinases (MKKs), attenuates epithelial cell pro-inflammatory molecule expression. 16HBE14o-cells were co-transfected with cDNAs encoding Yersinia pseudotuberculosis YopJ or empty vector. Expression of YopJ reduced activation of extracellular signal regulated kinase (ERK)-2, Jun amino terminal kinase (JNK)-1 and IkappaB kinase (IKK)-beta. YopJ also blocked transactivation of NF-kappaB and AP-1 promoter sequences which has been shown to regulate chemokine expression. Finally, expression of YopJ reduced transcription from the IL-8, RANTES (regulated upon activation, normal T cell expressed and secreted) and intercellular adhesion molecule (ICAM)-1 promoters. We conclude that YopJ expression blocks the innate immune response in lung epithelial cells, the site of Yersinia pestis infection. Inhibition of bronchial epithelial cell responses by YopJ is consistent with the notion that MAP kinases regulates bronchial epithelial cell pro-inflammatory molecule expression.
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PMID:Yersinia YopJ inhibits pro-inflammatory molecule expression in human bronchial epithelial cells. 1510 31

The NF-kappaB pathway plays a pivotal role in proliferation, differentiation, apoptosis, and immune responses in mammals. The NF-kappaB inhibitor, IkappaB, has classically been characterized for its ability to sequester NF-kappaB transcription factors in the cytoplasm. Nevertheless, a nuclear fraction of IkappaBalpha has consistently been detected and associated with repression of nuclear NF-kappaB. Now we show that IkappaBalpha physically associates with different repression elements such as nuclear corepressors and histone acetyltransferases and deacetylases (HDACs). More remarkably, chromatin immunoprecipitation experiments demonstrate that IkappaBalpha is recruited to the promoter regions of the Notch-target gene, hes1, together with HDAC1 and -5, whereas we did not detect IkappaBalpha associated with classical NF-kappaB target genes such as IL6 and RANTES. TNF-alpha treatment results in a temporary release of IkappaBalpha from the hes1 promoter that correlates with increased histone acetylation and transcriptional activation. In addition, we demonstrate that both IkappaB kinase-alpha and -beta are simultaneously recruited to the hes1 promoter in response to TNF-alpha, coinciding with a maximum of IkappaBalpha release and gene activation. Moreover, TNF-alpha-dependent histone H3 acetylation, release of IkappaBalpha from the hes1 promoter, and hes1 mRNA synthesis are affected in IKK-alpha(-/-) mouse embryonic fibroblasts. We propose that IkappaBalpha plays a previously undescribed role in regulating the recruitment of repression elements to specific promoters. Recruitment of IKKs to the nucleus in response to TNF-alpha may induce chromatin-associated IkappaBalpha release and gene activation. These findings provide additional insight in the cross-talk between NF-kappaB and other signaling pathways.
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PMID:Recruitment of IkappaBalpha to the hes1 promoter is associated with transcriptional repression. 1553 34

Viral and bacterial pathogens have long been suspected to affect atherogenesis directly. However, mechanisms linking innate immunity to chronic inflammatory diseases such as atherosclerosis are still poorly defined. Here we show that infection of primary human aortic smooth muscle cells (HAOSMC) with human cytomegalovirus (HCMV) leads to activation of the novel IkappaB kinase (IKK)-related kinase, Tank-binding kinase-1 (TBK1), a major effector of the cellular innate immune response. We demonstrate that part of the HCMV inflammatory response is most likely mediated via this novel kinase because the canonical IKK complex was only poorly activated upon infection of HAOSMC. An increase in TBK1 phosphotransferase activity led to a strong activation of the interferon regulatory factor (IRF)-3 transcription factor as measured by its C-terminal phosphorylation, dimerization, and DNA binding activity. In addition to TBK1, HAOSMC also express another IKK-related kinase isoform, IKKepsilon, albeit at a lower level. Nevertheless, both isoforms were required for full activation of IRF-3 by HCMV. The transcripts of proatherosclerotic genes Ccl5 (encoding for the chemokine RANTES (regulated upon activation, normal T cell expressed and secreted)) and Cxcl10 (encoding for the chemokine IP-10 (interferon-gamma-inducible protein 10)) were induced in an IRF-3-dependent manner after HCMV infection of smooth muscle cells. In addition, cytokine arrays analysis showed that RANTES and IP-10 were the predominant chemokines present in the supernatant of HCMV-infected HAOSMC. Activation of the TBK1/IRF-3 pathway was independent of epidermal growth factor receptor and pertussis toxin-sensitive G protein-coupled receptor activation. Our results thus add additional molecular clues to a possible role of HCMV as a modulator of atherogenesis through the induction of a proinflammatory response that is, in part, dependent of an IKK-related kinase pathway.
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PMID:Roles of an IkappaB kinase-related pathway in human cytomegalovirus-infected vascular smooth muscle cells: a molecular link in pathogen-induced proatherosclerotic conditions. 1561 5

The transcription factor nuclear factor-kappa B (NF-kappaB) subunit p65 is phosphorylated by IkappaB kinase (IKK) at S536 in transactivation domain (TAD) 1. In this study, we investigate the presence of IKK sites in TAD2 of p65. Recombinant IKKbeta, but not IKKalpha, phosphorylated a GST-p65 substrate in which TAD1 was deleted. Mutational analysis revealed S468 as the only IKK site in TAD2. S468 phosphorylation occurred rapidly after TNF-alpha and IL-1beta in T cell, B cell, cervix carcinoma, hepatoma, breast cancer, and astrocytoma lines and in primary hepatic stellate cells as well as peripheral blood mononuclear cells. S468-phosphorylated p65 coimmunoprecipitated with IkappaBalpha, indicating that p65 is phosphorylated while bound to IkappaBalpha. Dominant negative IKKbeta or pharmacological IKK inhibition blocked S468 phosphorylation after TNF-alpha or IL-1beta, whereas dominant negative IKKalpha or inhibitors of MEK, p38, JNK, PI-3 kinase, or GSK-3 had no effect. p65S468A-reconstituted p65-/- mouse embryonic fibroblasts (MEFs) showed a small, but significant, elevation of NF-kappaB-driven luciferase activity and RANTES mRNA levels after TNF-alpha and IL-1beta in comparison to wtp65-reconstituted MEFs. p65 nuclear translocation was not altered in p65S468A-expressing MEFs. In conclusion, our results indicate that 1) IKKbeta phosphorylates multiple p65 sites, 2) IKKbeta phosphorylates p65 in an IkappaB-p65 complex, and 3) S468 phosphorylation slightly reduces TNF-alpha- and IL-1beta-induced NF-kappaB activation.
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PMID:IKKbeta phosphorylates p65 at S468 in transactivaton domain 2. 1604 71

Respiratory syncytial virus (RSV)-induced chemokine gene expression occurs through the activation of a subset of transcription factors, including Interferon Regulatory Factor (IRF)-3. In this study, we have investigated the signaling pathway leading to RSV-induced IRF-3 activation and whether it is mediated by intracellular reactive oxygen species (ROS) generation. Our results show that RSV infection induces expression and catalytic activity of IKKepsilon, a noncanonical IKK-like kinase. Expression of a kinase-inactive IKKepsilon blocks RSV-induced IRF-3 serine phosphorylation, nuclear translocation and DNA-binding, leading to inhibition of RANTES gene transcription, mRNA expression and protein synthesis. Treatment of alveolar epithelial cells with antioxidants or with NAD(P)H oxidase inhibitors abrogates RSV-induced chemokine secretion, IRF-3 phosphorylation and IKKepsilon induction, indicating that ROS generation plays a fundamental role in the signaling pathway leading to IRF-3 activation, therefore, identifying a novel molecular target for the development of strategies aimed to modify the inflammatory response associated with RSV infection of the lung.
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PMID:Ikkepsilon regulates viral-induced interferon regulatory factor-3 activation via a redox-sensitive pathway. 1680 87

Rhinovirus infections cause the majority of acute exacerbations of airway diseases such as asthma and chronic obstructive pulmonary disease, with increased pro-inflammatory cytokine production by infected bronchial epithelial cells contributing to disease pathogenesis. Theses diseases are a huge cause of morbidity worldwide, and contribute a major economic burden to healthcare costs. Current steroid based treatments are only partially efficient at controlling virus induced inflammation, which remains an unmet therapeutic goal. Although NF-kappaB has been implicated, the precise mechanisms of rhinovirus induction of pro-inflammatory gene expression in bronchial epithelial cells are unclear. We hypothesised that rhinovirus replication and generation of dsRNA was an important process of pro-inflammatory cytokine induction. Using pharmalogical (2-aminopurine and a new small molecule inhibitor) and genetic inhibition of the dsRNA binding kinase protein kinase R, striking inhibition of dsRNA (polyrIC) and rhinovirus induced CCL5, CXCL8 and IL-6 protein was observed. Using confocal microscopy, rhinovirus induced protein kinase R phosphorylation co-located with NF-kappaB p65 nuclear translocation. Focusing on CXCL8, both rhinovirus infection and dsRNA treatment required IkappaB kinase-beta for induction of CXCL8. Analysis of cis-acting sites in the CXCL8 promoter revealed that both rhinovirus infection and dsRNA treatment upregulated CXCL8 promoter activation via NF-kappaB and NF-IL6 binding sites. Together, the results demonstrate the importance of dsRNA in induction of pro-inflammatory cytokines by rhinoviruses, and suggest that protein kinase R is involved in NF-kappaB mediated gene transcription of pro-inflammatory cytokines via IkappaB kinase-beta. These molecules regulating rhinovirus induction of inflammation represent therapeutic targets.
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PMID:Protein kinase R, IkappaB kinase-beta and NF-kappaB are required for human rhinovirus induced pro-inflammatory cytokine production in bronchial epithelial cells. 1698 99

Endothelial cells are important reservoirs for human cytomegalovirus (HCMV) replication, dissemination and persistence. HCMV infection of endothelial cells has been associated with a proinflammatory response characterized by an increased expression of chemokines and adhesion molecules and modulation of angiogenesis. Many of the host proinflammatory genes augmented in HCMV-infected endothelial cells are regulated, at least in part, by the NF-kappaB pathway. HCMV is a potent activator of NF-kappaB through the IKK-IkappaB signaling axis. To explore whether inhibition of HCMV-induced NF-kappaB activation may interfere with the onset of virus-associated inflammatory response, we measured the effects of the specific IKK2 inhibitor AS602868 on the expression of a panel of proinflammatory genes in HUVEC cells infected with a clinical isolate. Treatment of infected HUVEC with AS602868 was shown to impair HCMV-induced NF-kappaB activity, IE gene expression, viral replication and to prevent HCMV-induced upregulation of ICAM-1, IL-8, RANTES, IP-10, I-TAC and COX-2 gene expression. Consistent with these results, HCMV-mediated upregulation of another NF-kappaB-dependent gene, the plasminogen inhibitor type-1, a regulatory factor of endothelial proliferation and angiogenesis, was abrogated by AS602868. These results suggest that inhibition of HCMV-induced IKK-NF-kappaB activation may be of interest to limit the virus-induced inflammatory response of infected endothelial cells.
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PMID:Targeting the NF-kappaB pathway through pharmacological inhibition of IKK2 prevents human cytomegalovirus replication and virus-induced inflammatory response in infected endothelial cells. 1707 Jun 4


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