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)

Gastric epithelial cells were incubated with a panel of clinical isolates of Helicobacter pylori, including nonulcer dyspepsia with gastritis (HS, n = 20), gastric ulcer (HU, n = 20), duodenal ulcer (HD, n = 21), and gastric cancer (HC, n = 20). HC strains induced a higher cyclooxygenase-2 (COX-2) expression than those from HS, HD, and HU. The bacterial virulence factors and the host cellular pathways were investigated. Virulence genes of iceA, vacA, babA2, cagA 3' repeat region, and hrgA failed to show any association with the disease status and COX-2 expression. Methylation-specific polymerase chain reaction revealed HC strains not affecting the methylation status of COX-2 promoter. Nuclear factor (NF)-kappaB, NF-interleukin 6, and cAMP response element were found to be involved in COX-2 induction. We explored a novel NF-kappaB activation pathway. The mutants of TLR2 and TLR9, but not TLR4, inhibited H. pylori-induced COX-2 promoter activity, and neutralizing antibodies for TLR2 and TLR9 abolished H. pylori-induced COX-2 expression. Phosphatidylinositol-specific phospholipase C (PI-PLC), protein kinase C (PKC), and Src inhibitors inhibited COX-2 induction. The dominant-negative mutants of NIK and various IkappaB kinase complexes, including IKKbeta (Y188F), IKKbeta (Y199F), and IKKbeta (FF), inhibited the COX-2 promoter activity. Phosphorylation of GST-IKKbeta (132-206) at Tyr188 and Tyr199 by c-Src was found after H. pylori infection. In summary, H. pylori induces COX-2 expression via activations of NF-kappaB, NF-interleukin 6, the cAMP response element. In NF-kappaB activation, H. pylori acts through TLR2/TLR9 to activate both the cascade of PI-PLCgamma/PKCalpha/c-Src/IKKalpha/beta and the cascade of NIK/IKKalpha/beta, resulting in the IkappaBalpha degradation and the expression of COX-2 gene. The COX-2 overexpression may contribute to the carcinogenesis in patients colonized with these strains.
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PMID:Induction of cyclooxygenase-2 overexpression in human gastric epithelial cells by Helicobacter pylori involves TLR2/TLR9 and c-Src-dependent nuclear factor-kappaB activation. 1545 96

IKKgamma is a component of the IKK complex, which regulates NF-kappaB activity. To investigate the role of IKKgamma, we expressed wild type IKKgamma containing 412 amino acids, and deletion mutants containing residues 1-312 and 101-412, using murine IKKgamma cDNA. In a co-transfection assay with a CAT reporter plasmid, NIK activated NF-kappaB-dependent gene expression approximately two fold and this expression was inhibited by co-transfection of a wild type IKKgamma expression plasmid. In binding assays IKKgamma inhibited the association of IkappaBalpha with IKKbeta and the subsequent phosphorylation of IkappaBalpha that is activated by NIK. Inhibition by IKKgamma also occurred in an assay with a dominant negative mutant of NIK but not with a C-terminal deletion mutant of IKKgamma, indicating that the C-terminal 100 amino acids of IKKgamma are important for negative regulation of NF-kappaB activation. In addition, the interaction of IKKbeta with IKKgamma was inhibited by co-transfection with a NIK expression plasmid. Our results suggest that overexpression of IKKgamma inhibits activation of NF-kappaB by NIK by competing with NIK for interaction with IKKbeta.
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PMID:IKKgamma inhibits activation of NF-kappaB by NIK. 1552 96

Considering the potential role of interleukin-8 (IL-8) in inflammation, angiogenesis, tumorigenesis, and metastasis, we investigated the molecular mechanism involved in IL-8-mediated signaling. In this report we provide evidence that like TNF, an inducer of NF-kappaB and also a NF-kappaB-dependent gene product, IL-8 induces NF-kappaB in a unique pathway. IL-8 induces NF-kappaB activation in a dose-dependent manner in different cell types as detected by a DNA-protein binding assay. IL-8 induces NF-kappaB-dependent reporter gene expression as well as ICAM-1, VCAM-1, and Cox-2 expression. IL-8 also induces IkappaBalpha phosphorylation followed by degradation and p65 translocation. IL-8 induces c-Jun N-terminal kinase (JNK) and mitogen-activated protein kinase (MAPK) in a dose- and time-dependent manner. IL-8-induced NF-kappaB activation is for the most part unaltered when cells are transfected with dominant-negative TRADD, FADD, or TRAF2, but is inhibited with dominant-negative TRAF6-, NIK-, IKK-, or IkappaBalpha-transfected cells. The data suggest that IL-8-induced NF-kappaB activation proceeds through a TRAF2-independent but TRAF6-dependent pathway, followed by recruitment of IRAK and activation of IKK. IL-8-induced NF-kappaB activation is not observed in a cell-permeable peptide that has TRAF6 binding motif-treated cells or IRAK-deficient cells. IL-8-induced NF-kappaB activation proceeds mostly through interaction with TRAF6 and partially through the Rho-GTPase pathways. This is the first report that IL-8 induces NF-kappaB in a distinct pathway, and activation of NF-kappaB and its dependent genes may be one of the pathways of IL-8-induced inflammation and angiogenesis.
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PMID:Interleukin-8 induces nuclear transcription factor-kappaB through a TRAF6-dependent pathway. 1559 Oct 54

Evodiamine, an alkaloidal component extracted from the fruit of Evodiae fructus (Evodia rutaecarpa Benth., Rutaceae), exhibits antiproliferative, antimetastatic, and apoptotic activities through a poorly defined mechanism. Because several genes that regulate cellular proliferation, carcinogenesis, metastasis, and survival are regulated by nuclear factor-kappaB (NF-kappaB), we postulated that evodiamine mediates its activity by modulating NF-kappaB activation. In the present study, we investigated the effect of evodiamine on NF-kappaB and NF-kappaB-regulated gene expression activated by various carcinogens. We demonstrate that evodiamine was a highly potent inhibitor of NF-kappaB activation, and it abrogated both inducible and constitutive NF-kappaB activation. The inhibition corresponded with the sequential suppression of IkappaBalpha kinase activity, IkappaBalpha phosphorylation, IkappaBalpha degradation, p65 phosphorylation, p65 nuclear translocation, and p65 acetylation. Evodiamine also inhibited tumor necrosis factor (TNF)-induced Akt activation and its association with IKK. Suppression of Akt activation was specific, because it had no effect on JNK or p38 MAPK activation. Evodiamine also inhibited the NF-kappaB-dependent reporter gene expression activated by TNF, TNFR1, TRADD, TRAF2, NIK, and IKK but not that activated by the p65 subunit of NF-kappaB. NF-kappaB-regulated gene products such as Cyclin D1, c-Myc, COX-2, MMP-9, ICAM-1, MDR1, Survivin, XIAP, IAP1, IAP2, FLIP, Bcl-2, Bcl-xL, and Bfl-1/A1 were all down-regulated by evodiamine. This down-regulation potentiated the apoptosis induced by cytokines and chemotherapeutic agents and suppressed TNF-induced invasive activity. Overall, our results indicated that evodiamine inhibits both constitutive and induced NF-kappaB activation and NF-kappaB-regulated gene expression and that this inhibition may provide a molecular basis for the ability of evodiamine to suppress proliferation, induce apoptosis, and inhibit metastasis.
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PMID:Evodiamine abolishes constitutive and inducible NF-kappaB activation by inhibiting IkappaBalpha kinase activation, thereby suppressing NF-kappaB-regulated antiapoptotic and metastatic gene expression, up-regulating apoptosis, and inhibiting invasion. 1571 Jun 1

The transcription factor NF-kappaB plays an important role in both physiological and pathological events in the central nervous system. Nevertheless, the mechanisms of NF-kappaB-mediated regulation of gene expression, and the signaling molecules participating in the NF-kappaB pathway in the central nervous system are, to date, poorly understood. To identify such molecules, we conducted a yeast two-hybrid screen of a human brain cDNA library using NIK as bait. As a result, we identified a novel NIK and IKK(beta) binding protein designated NIBP that is mainly expressed in brain, muscle, heart, and kidney. Interestingly, low levels of expression were detected in immune tissues such as spleen, thymus, and peripheral blood leukocytes, where NF-kappaB is known to modulate immune function. We demonstrated by immunohistochemistry that NIBP expression in the brain is localized to neurons. NIBP physically interacts with NIK, IKK(beta), but not IKK(alpha) or IKK(gamma). NIBP overexpression potentiates tumor necrosis factor-alpha-induced NF-kappaB activation through increased phosphorylation of the IKK complex and its downstream I(kappa)B(alpha) and p65 substrates. Finally, knockdown of NIBP expression by small interfering RNA reduces tumor necrosis factor-alpha-induced NF-kappaB activation, prevents nerve growth factor-induced neuronal differentiation, and decreases Bcl-xL gene expression in PC12 cells. Our data demonstrate that NIBP, by interacting with NIK and IKK(beta), is a new enhancer of the cytokine-induced NF-(kappa)B signaling pathway. Because of its neuronal expression, we propose that NIBP may be a potential target for modulating the NF-(kappa)B signaling cascade in neuronal pathologies dependent upon abnormal activation of this pathway.
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PMID:NIBP, a novel NIK and IKK(beta)-binding protein that enhances NF-(kappa)B activation. 1595 41

Zerumbone found in subtropical ginger Zingiber zerumbet Smith exhibits antiproliferative and antiinflammatory activities but underlying molecular mechanisms are poorly understood. As several genes that regulate proliferation and apoptosis are regulated by nuclear factor (NF)-kappaB, we hypothesized that zerumbone mediates its activity through the modulation of NF-kappaB activation. We found that zerumbone suppressed NF-kappaB activation induced by tumor necrosis factor (TNF), okadaic acid, cigarette smoke condensate, phorbol myristate acetate, and H2O2 and that the suppression was not cell type specific. Interestingly, alpha-humulene, a structural analogue of zerumbone lacking the carbonyl group, was completely inactive. Besides being inducible, constitutively active NF-kappaB was also inhibited. NF-kappaB inhibition by zerumbone correlated with sequential suppression of the IkappaBalpha kinase activity, IkappaBalpha phosphorylation, IkappaBalpha degradation, p65 phosphorylation, p65 nuclear translocation, and p65 acylation. Zerumbone also inhibited the NF-kappaB-dependent reporter gene expression activated by TNF, TNFR1, TRADD, TRAF2, NIK, and IKK but not that activated by the p65 subunit of NF-kappaB. NF-kappaB-regulated gene products, such as cyclin D1, COX-2, MMP-9, ICAM-1, c-Myc, survivin, IAP1, IAP2, XIAP, Bcl-2, Bcl-xL, Bfl-1/A1, TRAF1 and FLIP, were all downregulated by zerumbone. This downregulation led to the potentiation of apoptosis induced by cytokines and chemotherapeutic agents. Zerumbone's inhibition of expression of these NF-kappaB-regulated genes also correlated with the suppression of TNF-induced invasion activity. Overall, our results indicated that zerumbone inhibits the activation of NF-kappaB and NF-kappaB-regulated gene expression induced by carcinogens and that this inhibition may provide a molecular basis for the prevention and treatment of cancer by zerumbone.
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PMID:Zerumbone abolishes NF-kappaB and IkappaBalpha kinase activation leading to suppression of antiapoptotic and metastatic gene expression, upregulation of apoptosis, and downregulation of invasion. 1600 45

The ICAM-1/LFA-1 complex mediates cell-cell interaction. ICAM-1 is overexpressed in Hodgkin/Reed-Sternberg (H/RS) cells, and serum levels of its soluble form are higher in Hodgkin's lymphoma (HL) patients than in controls. There are no data, however, regarding the regulation of expression of ICAM-1 in H/RS cells. CD30 was identified in H/RS cells of HL and has attracted much interest as a molecular marker of HL. To analyze ICAM-1 expression in H/RS cells, we examined the expression of ICAM-1, LFA-1, CD30 and CD30L in HL-derived cell lines. All cell lines expressed ICAM-1 and CD30, but not LFA-1 or CD30L. CD30 induced ICAM-1 expression. Analysis of the ICAM-1 promoter showed the importance of NF-kappaB binding site for CD30-induced ICAM-1 gene expression. Coexpression of IkappaB, IKK, NIK and TRAF dominant-negative constructs with CD30 inhibited CD30-induced activation of ICAM-1 promoter, suggesting that CD30 induces ICAM-1 via NF-kappaB signalling. The ICAM-1 promoter was activated by the C-terminal region of CD30, which activated NF-kappaB signalling. A decoy CD30 lacking the cytoplasmic region inhibited ICAM-1 promoter activity in HL cell lines. Thus, in H/RS cells, ligand-independent activation of CD30 signalling activates NF-kappaB and this leads to constitutive ICAM-1 expression, suggesting a link between 2 well known phenotypic characteristics of HL, CD30 and ICAM-1 overexpression.
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PMID:Transactivation of the ICAM-1 gene by CD30 in Hodgkin's lymphoma. 2196 Feb 63

Betaine is an important human nutrient obtained from various foods. In the present study, we assessed the anti-inflammatory effect of betaine on nuclear factor-kappaB (NF-kappaB) during aging. Sprague-Dawley (SD) rats, ages 7 and 21 months, were used in this study. The older rats were fed betaine. To elucidate the effect of betaine on oxidative stress-induced NF-kappaB and its signaling pathway at molecular levels, YPEN-1 cells were used. Results showed that betaine suppressed NF-kappaB and its related gene expressions of cyclooxygenase-2 (COX-2), inducible nitric oxide synthase (iNOS), vascular cell adhesion molecule-1 (VCAM-1), and intracellular cell adhesion molecule-1 (ICAM-1) in aged kidney. Furthermore, betaine attenuated oxidative stress-induced NF-kappaB via nuclear factor-inducing kinase/IkappaB kinase (NIK/IKK) and mitogen-activated protein kinases (MAPKs) in the YPEN-1 cells. On the basis of these results, we concluded that betaine suppressed the age-related NF-kappaB activities associated with upregulated NIK/IKK and MAPKs that were induced by oxidative stress. Thus, betaine might be useful as a preventive agent against the activation of NF-kappaB induced during inflammation and aging.
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PMID:Betaine suppresses proinflammatory signaling during aging: the involvement of nuclear factor-kappaB via nuclear factor-inducing kinase/IkappaB kinase and mitogen-activated protein kinases. 1628 56

The basis of our recently proposed "molecular inflammation theory of aging" is that activated inflammatory transcription factors, including versatile NF-kappaB, occur widespread in the organism during aging. NF-kappaB plays a key role in pro-inflammatory gene expression, such as cyclooxygenase (COX). Aspirin is one of the most commonly used non-steroidal anti-inflammatory drugs because of its ability to inhibit COX activity. Thus, in the present study, we investigated the effect of short-term, low dose aspirin intake on the modulation of pro-inflammatory NF-kappaB activation in old rats. To conduct the study, 24-month-old Fischer 344 rats were supplemented with low dose aspirin (0.015%) for 10 days. Biochemical analyses showed suppressed reactive species (RS) and COX-2 activity. The data also showed that NF-kappaB activation and its associated gene expressions, such as COX-2, iNOS, VCAM-1 and ICAM-1, were all suppressed by the low dose aspirin supplementation through the inhibition of phosphorylation and degradation of IkappaBalpha via the NIK/IKK pathway. Our molecular exploration further revealed that aspirin's suppressive action of NF-kappaB was mediated by its ability to inhibit the nuclear translocation of cytosolic thioredoxin and redox factor-1. These findings showed for the first time that in aged rat short-term low dose dietary aspirin feeding modulates the molecular signal transduction involved in the inflammatory process.
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PMID:Effect of short-term, low dose aspirin supplementation on the activation of pro-inflammatory NF-kappaB in aged rats. 1631 Feb 44

Three kinds of networks were summarily described in this review including the small intracellular molecular networks, the middle-scale networks of hypothalamus-pituitary-adrenal-thymus (HPAT) axis and the large network, neuroendocrine-immune (NEI) network, covering the whole organism and linking multiple systems together. The hypothesis was expressed that the "disease" or "syndrome" formed in the human body by the intervention from outside world is based on the changes of multi-molecular network. In this paper, the pattern and ability of signal transduction channel and the methods of studying changes in it were also described, and raised, herefrom, "to determine syndrome by drug effects (DSDE)" is the intervention means for studying syndrome in the light of systemic biological methods. We found Kidney-yang deficiency syndrome covered the NEI network and the regulating center located in hypothamus with Compound Bushen Recipe (CBR, Kidney-tonifying recipe). By intervention with EF, an effective component of CBR, it was found that EF can activate the immune system and the three networks, including growth axis, sex hormone axis and lymphocyte apoptosis network in HPAT axis through the downward pathway of NEI network to play its efficiency of molecular network. There are many regulation patterns of EF on networks. For example, in the network mechanism of lymphocyte apoptosis and proliferation, EF can reconstruct the balance of the opposite apoptosis related genes and proliferation related genes; EF can assemble and integrate co-stimulating molecules, transform growth factors (TGF), and several oncogenes to form an upstream factor network for initiating the proliferation and anti-apoptosis promotion; EF can simultaneously up-regulate the two opposite genes expression of IkappaB and NFkappaB in NIK/IKK/IkappaB/Rel/NFkappaB signal transduction channel, which could not only control the rising of NFkappaB in a moderate range, but also guarantee its predominant status to exert its hinge role in molecule regulating network, by which gene network regulation atlas in HPAT axis of Kidney-deficiency syndrome was observed.
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PMID:[Studies of gene networks and singal transduction of kidney deficiency syndrome by syndrome differentiation through drug effects]. 1639 38


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