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)

Increased X-linked inhibitor of apoptosis (XIAP) expression and suppressed follicular apoptosis are important determinants in the regulation of follicular development by FSH. The objective of the present study was to examine the role and regulation of nuclear factor-kappaB (NFkappaB) in the gonadotropic control of granulosa cell XIAP expression and follicular growth in vitro. FSH (100 ng/ml) increased rat granulosa cell XIAP mRNA abundance and protein content. The gonadotropin also induced granulosa cell p65 subunit-containing NFkappaB translocation from cytoplasm to nucleus and increased NFkappaB-DNA binding activity. Supershift EMSA indicated the FSH-activated NFkappaB contained p65 and p50 subunits. Unlike TNFalpha, FSH failed to elicit a significant change in granulosa cell phospho- and total-inhibitory NFkappaB (IkappaB) IkappaB contents in vitro and dominant-negative IkappaB expression was ineffective in blocking the increase in NFkappaB-DNA-binding activity and XIAP protein content induced by the gonadotropin. In contrast, SN50 (a cell permeable inhibitory peptide of NFkappaB translocation, 50-200 ng/ml) suppressed FSH-stimulated NFkappaB-DNA binding, XIAP expression, and follicular growth. FSH also increased granulosa cell phospho-Akt contents, a response sensitive to the PI-3K inhibitor LY294002 (10 microM). In conclusion, the present studies demonstrate that the FSH-induced XIAP expression is mediated through the NFkappaB pathway through activation of phosphatidylinositol 3-kinase rather than the classical IkappaB kinase.
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PMID:Involvement of inhibitory nuclear factor-kappaB (NFkappaB)-independent NFkappaB activation in the gonadotropic regulation of X-linked inhibitor of apoptosis expression during ovarian follicular development in vitro. 1207 8

The signaling pathway responsible for the activation of nuclear factor-kappaB (NF-kappaB) by oncogenic forms of Ras remains unclear. Both, the transactivation and DNA binding activities of NF-kappaB, were increased in 267B1 human prostate epithelial cells transformed by viral Kirsten-ras (267B1/Ki-ras cells) compared with those in the parental cells. This increased NF-kappaB activity was attributed to a heterodimeric complex of p50 and p65 subunits. Although the abundance of the inhibitor protein IkappaBbeta was higher in 267B1/Ki-ras cells than in 267B1 cells, an electrophoretic mobility-shift assay suggested that IkappaBalpha is responsible for the activation of NF-kappaB in the former cells. Consistent with this notion, the phosphorylation of IkappaBalpha appeared increased in 267B1/Ki-ras cells, and the proteasome inhibitor I abolished the constitutive activation of NF-kappaB in these cells. The expression of dominant negative mutants of either NIK (NF-kappaB-inducing kinase) or IKKbeta (IkappaB kinase beta) inhibited the activity of NF-kappaB in 267B1/Ki-ras cells. Furthermore, chemical inhibitors specific for Ras activation, sulindac sulfide and farnesytranferase inhibitor I, markedly reduced IkappaBalpha phosphorylation and NF-kappaB activation in the Ki-ras-transformed cells while transfection of these cells with NIK or IKKbeta counteracted the inhibitory effect on NF-kappaB activation. These results suggest that oncogenic Ki-Ras induces transactivation of NF-kappaB through the NIK-IKKbeta-IkappaBalpha pathway.
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PMID:Constitutive activation of NF-kappaB in Ki-ras-transformed prostate epithelial cells. 1208 27

Although intestinal epithelial cells are known to up-regulate the expression of several chemokine genes in response to the stimulation with B. fragilis enterotoxin (BFT), there has been little understanding on the cellular mechanisms of BFT-induced mucosal inflammation. To test whether nuclear transcriptional factor-kappa B (NF-kappaB) is involved in the process, we stimulated intestinal epithelial cells with BFT, and evaluated the signalling NF-kappaB pathways. BFT increased signals of NF-kappaB in HT-29 and T84 epithelial cell lines as well as primary human colon epithelial cells. NF-kappaB molecules activated by BFT stimulation were composed of p65 and p50 heterodimers. In contrast, BFT decreased the signals of IkappaBalpha and IkappaB epsilon, as assessed by immunoblot. Super-repressors of IkappaBalpha, IkappaB kinase (IKK)beta, and NF-kappaB inducing kinase (NIK) inhibited an up-regulated transcription of downstream target gene (CXCL8) of NF-kappaB. Moreover, blocking the activation of NF-kappaB by MG-132 or antisense p50 oligonucleotide transfection resulted in down-regulated expression of chemokines such as CXCL1, CXCL8, and CCL2 in BFT-stimulated HT-29 cells. In addition, NF-kappaB inhibition suppressed the BFT-induced neutrophil transepithelial migration in T84 cells. These results indicate that NF-kappaB can be a central regulator of chemokine gene expression in BFT-stimulated intestinal epithelial cells and may be an important regulator of neutrophil migration.
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PMID:Nuclear factor-kappa B activation pathway in intestinal epithelial cells is a major regulator of chemokine gene expression and neutrophil migration induced by Bacteroides fragilis enterotoxin. 1229 54

Previous studies have shown that biochemical changes that occur in the amygdala during fear conditioning in vivo are similar to those occur during long term potentiation (LTP) in vitro. Electrophoretic mobility shift assay of nuclear extracts from startle-potentiated rats showed a selective increase in the amygdala of nuclear factor-kappaB (NF-kappaB) DNA binding activity. Supershift experiments further indicated that p65 and p50 subunits but not c-Rel were involved in DNA binding. The protein levels of IkappaB-alpha were reduced by treatments that reliably induced LTP in this area of the brain. This was accompanied by a decrease of NF-kappaB in the cytoplasm concomitant with an increase in the nucleus. Quantitative analysis of IkappaB kinase activity demonstrated that fear training led to an increase in kinase activity, and this effect was inhibited by thalidomide. Paralleled behavioral tests revealed that thalidomide inhibited fear-potentiated startle. Intra-amygdala administration of kappaB decoy DNA prior to training impaired fear-potentiated startle as well as LTP induction. Similarly, NF-kappaB inhibitors blocked IkappaB-alpha degradation and startle response. These results provide the first evidence of a requirement of NF-kappaB activation in the amygdala for consolidation of fear memory.
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PMID:A requirement of nuclear factor-kappaB activation in fear-potentiated startle. 1235 29

The survival of viral mediated lymphomas depends upon constitutive nuclear factor kappa B (NF-kappaB) activity. AIDS-related human herpesvirus type 8-associated primary effusion lymphoma (PEL) responds poorly to chemotherapy and is almost invariably fatal. We have previously demonstrated that the antiviral combination of interferon alpha (IFN-alpha) and azidothymidine (AZT) induces apoptosis in PEL cell lines. We therefore used these agents as therapy for an AIDS patient with PEL. The patient had a dramatic response, with complete resolution of his malignant effusion in 5 days. In PEL cells, the death receptor ligand known as tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) is markedly up-regulated by IFN-alpha; however, signals transduced by death receptors may also activate an antiapoptotic response mediated by NF-kappaB. In both the primary tumor cells from our patient and PEL cell lines, AZT selectively blocked nuclear entry of the NF-kappaB heterodimer p50 and p65, an effect not seen with other nonthymidine antiviral nucleosides. AZT monophosphate, the principal intracellular metabolite, inhibited phosphorylation and degradation of IkappaB by the IkappaB kinase complex. AZT- and IFN-alpha-mediated apoptosis was blocked by expression and nuclear localization of an IkappaB-resistant form of NF-kappaB (the p50 subunit linked to the transactivation domain of herpes simplex virus VP16). The proapoptotic effect of AZT and IFN-alpha in PEL occurs through the concomitant activation of TRAIL and blockade of NF-kappaB and represents a novel antiviral therapy for a virally mediated tumor.
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PMID:Potentiation of TRAIL-induced apoptosis in primary effusion lymphoma through azidothymidine-mediated inhibition of NF-kappa B. 1240 82

The Her-2/neu oncogene, the second member of the epidermal growth factor (EGF) receptor family, encodes a transmembrane tyrosine kinase receptor. Overexpression of Her-2/neu in approximately 30% of breast cancers is associated with poor overall survival. Recently, we have found that Her-2/neu activates nuclear factor (NF)-kappaB via a phosphatidylinositol 3 kinase (PI3-K)-Akt kinase signaling pathway in mouse mammary tumor virus (MMTV)-Her-2/neu NF639 mouse breast cancer cells. Surprisingly, the IkappaB kinase (IKK) kinase complex, implicated in proteasome-mediated degradation of IkappaB-alpha and activation of NF-kappaB via the canonical pathway, was not activated in these cells. Degradation of IkappaB-alpha was mediated via calpain, which in B cells is facilitated by phosphorylation of IkappaB-alpha by the protein kinase CK2. Here, we report that the inhibition of CK2 blocks Her-2/neu-mediated activation of NF-kappaB. NF639 breast cancer cells, stably expressing CK2alpha or CK2alpha' kinase-inactive mutants, displayed decreased NF-kappaB binding and reduced ability to grow in soft agar, as well as increased sensitivity to tumor necrosis factor (TNF)-alpha killing. Similarly, CK2 kinase-inactive subunits inhibited NF-kappaB activity in Hs578T human breast cancer cells, which also display elevated CK2 activity. In NIH 3T3 fibroblasts, which express low basal NF-kappaB and CK2 activities, overexpression of CK2 by retroviral gene delivery led to increased IkappaB-alpha turnover and the induction of classical NF-kappaB (p50/RelA). Thus, CK2 plays an important role in Her-2/neu signaling, promoting IkappaB-alpha degradation and, thereby, NF-kappaB activation. Furthermore, because ectopic CK2 activity appears sufficient to induce NF-kappaB, the elevated CK2 activity observed in many primary human breast cancers likely plays a role in aberrant activation of NF-kappaB and, therefore, represents a potential therapeutic target.
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PMID:Protein kinase CK2 promotes aberrant activation of nuclear factor-kappaB, transformed phenotype, and survival of breast cancer cells. 1243 79

Lymphotoxin-beta receptor (LTbetaR) is a member of the tumor necrosis factor receptor (TNFR) superfamily that activates nuclear factor-kappaB (NF-kappaB) through the IkappaB kinase (IKK) complex, the core of which is comprised of IKK1, IKK2 and NF-kappaB essential modulator (NEMO). We demonstrate here that the LTbetaR signaling to NF-kappaB activation does not necessarily require NEMO, which is essential for TNFR signaling. In the absence of NEMO, the p50 and RelB, but not RelA subunits of NF-kappaB are found in the nuclear DNA binding complexes induced by the LTbetaR signaling. Our results thus disclose NEMO-independent NF-kappaB activation by LTbetaR.
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PMID:Lymphotoxin-beta receptor mediates NEMO-independent NF-kappaB activation. 1245 60

NF-kappaB1 p105 functions both as a precursor of NF-kappaB1 p50 and as a cytoplasmic inhibitor of NF-kappaB. Following the stimulation of cells with tumor necrosis factor alpha (TNF-alpha), the IkappaB kinase (IKK) complex rapidly phosphorylates NF-kappaB1 p105 on serine 927 in the PEST region. This phosphorylation is essential for TNF-alpha to trigger p105 degradation, which releases the associated Rel/NF-kappaB subunits to translocate into the nucleus and regulate target gene transcription. Serine 927 resides in a conserved motif (Asp-Ser(927)-Gly-Val-Glu-Thr-Ser(932)) homologous to the IKK target sequence in IkappaBalpha. In this study, TNF-alpha-induced p105 proteolysis was revealed to additionally require the phosphorylation of serine 932. Experiments with IKK1(-/-) and IKK2(-/-) double knockout embryonic fibroblasts demonstrate that the IKK complex is essential for TNF-alpha to stimulate phosphorylation on p105 serines 927 and 932. Furthermore, purified IKK1 and IKK2 can each phosphorylate a glutathione S-transferase-p105(758-967) fusion protein on both regulatory serines in vitro. IKK-mediated p105 phosphorylation generates a binding site for betaTrCP, the receptor subunit of an SCF-type ubiquitin E3 ligase, and depletion of betaTrCP by RNA interference blocks TNF-alpha-induced p105 ubiquitination and proteolysis. Phosphopeptide competition experiments indicate that betaTrCP binds p105 more effectively when both serines 927 and 932 are phosphorylated. Interestingly, however, betaTrCP affinity for the IKK-phosphorylated sequence on p105 is substantially lower than that on IkappaBalpha. Thus, it appears that reduced p105 recruitment of betaTrCP and subsequent ubiquitination may contribute to delayed p105 proteolysis after TNF-alpha stimulation relative to that for IkappaBalpha.
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PMID:betaTrCP-mediated proteolysis of NF-kappaB1 p105 requires phosphorylation of p105 serines 927 and 932. 1248 91

The human large B-cell lymphoma cell line RC-K8 has a rearranged REL locus that directs the production of a chimeric protein, termed REL-NRG (Non-Rel Gene). In this study, we show that RC-K8 cells have constitutively nuclear heterodimeric and homodimeric DNA-binding complexes that consist of p50, REL, and REL-NRG. In vitro, IkappaBalpha can block the DNA-binding activity of wild-type REL homodimers but not REL-NRG homodimers. In vivo, REL-NRG cannot activate transcription of a kappaB site reporter plasmid, suggesting that it is a transcription repressing or blocking REL protein. By Western blotting, no IkappaBalpha protein can be detected in extracts of RC-K8 cells. The absence of IkappaBalpha protein in RC-K8 cells appears to be due to mutations that cause premature termination of translation in three of the four copies of the IKBA gene in RC-K8 cells. Re-expression of wild-type IkappaBalpha or a super-repressor form of IkappaBalpha in RC-K8 cells is cytotoxic; in contrast, expression of a dominant-negative form of IkappaB kinase does not affect the growth of RC-K8 cells. By cDNA microarray analysis, a number of previously identified Rel/NF-kappaB target genes are overexpressed in RC-K8 cells, consistent with there being transcriptionally active REL complexes. Taken together, our results suggest that the growth of RC-K8 cells is dependent on the activity of nuclear wild-type REL dimers, while the contribution of REL-NRG to the transformed state of RC-K8 cells is less clear. Nevertheless, the RC-K8 cell line is the first tumor cell line identified with mutations in genes encoding multiple proteins in the Rel/NF-kappaB signal transduction pathway.
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PMID:The human B-cell lymphoma cell line RC-K8 has multiple genetic alterations that dysregulate the Rel/NF-kappaB signal transduction pathway. 1248 29

Targeted disruption of the Rel/NF-kappaB family members NF-kappaB2, encoding p100/p52, and RelB in mice results in anatomical defects of secondary lymphoid tissues. Here, we report that development of Peyer's patch (PP)-organizing centers is impaired in both NF-kappaB2- and RelB-deficient animals. IL-7-induced expression of lymphotoxin (LT) in intestinal cells, a crucial step in PP development, is not impaired in RelB-deficient embryos. LTbeta receptor (LTbetaR)-deficient mice also lack PPs, and we demonstrate that LTbetaR signaling induces p52-RelB and classical p50-RelA heterodimers, while tumor necrosis factor (TNF) activates only RelA. LTbetaR-induced binding of p52-RelB requires the degradation of the inhibitory p52 precursor, p100, which is mediated by the NF-kappaB-inducing kinase (NIK) and the IkappaB kinase (IKK) complex subunit IKKalpha, but not IKKbeta or IKKgamma. Activation of RelA requires all three IKK subunits, but is independent of NIK. Finally, we show that TNF increases p100 levels, resulting in the specific inhibition of RelB DNA binding via the C-terminus of p100. Our data indicate an important role of p52-RelB heterodimers in lymphoid organ development downstream of LTbetaR, NIK and IKKalpha.
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PMID:RelB is required for Peyer's patch development: differential regulation of p52-RelB by lymphotoxin and TNF. 1250 90


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