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)

Tumor necrosis factor receptor 1 (TNFR1) can trigger distinct signaling pathways leading to either the activation of NF-kappaB transcription factors or apoptosis. NF-kappaB activation results in the expression of antiapoptotic genes that inhibit the apoptosis pathway that is activated in parallel. However, the molecular mechanism of this inhibition remains poorly characterized. We have isolated a Jurkat T-cell mutant that exhibits enhanced sensitivity to TNF-induced apoptosis as a result of a deficiency in I-kappaB kinase gamma (IKKgamma)/NEMO, an essential component of the IKK complex and NF-kappaB pathway. We show here that the zinc finger protein A20 is an NF-kappaB-inducible gene that can protect the IKKgamma-deficient cells from TNF-induced apoptosis by disrupting the recruitment of the death domain signaling molecules TRADD and RIP to the receptor signaling complex. Our study, together with reports on the role of other antiapoptotic proteins such as c-FLIP and c-IAP, suggests that, in order to ensure an effective shutdown of the apoptotic pathway, TNF induces multiple NF-kappaB-dependent genes that inhibit successive steps in the TNFR1 death signaling pathway.
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PMID:A20 inhibits tumor necrosis factor (TNF) alpha-induced apoptosis by disrupting recruitment of TRADD and RIP to the TNF receptor 1 complex in Jurkat T cells. 1216 98

IkappaB kinase gamma (IKKgamma) (also known as NEMO, Fip-3, and IKKAP-1) is the essential regulatory component of the IKK complex; it is required for NF-kappaB activation by various stimuli, including tumor necrosis factor alpha (TNF-alpha), interleukin 1 (IL-1), phorbol esters, lipopolysaccharides, and double-stranded RNA. IKKgamma is encoded by an X-linked gene, deficiencies in which may result in two human genetic disorders, incontinentia pigmenti (IP) and hypohidrotic ectodermal dysplasia with severe immunodeficiency. Subsequent to the linkage of IKKgamma deficiency to IP, we biochemically characterized the effects of a mutation occurring in an IP-affected family on IKK activity and NF-kappaB signaling. This particular mutation results in premature termination, such that the variant IKKgamma protein lacks its putative C-terminal Zn finger and, due to decreased mRNA stability, is underexpressed. Correspondingly, IKK and NF-kappaB activation by TNF-alpha and, to a lesser extent, IL-1 are reduced. Mutagenesis of the C-terminal region of IKKgamma was performed in an attempt to define the role of the putative Zn finger and other potential functional motifs in this region. The mutants were expressed in IKKgamma-deficient murine embryonic fibroblasts (MEFs) at levels comparable to those of endogenous IKKgamma in wild-type MEFs and were able to associate with IKKalpha and IKKbeta. Substitution of two leucines within a C-terminal leucine zipper motif markedly reduced IKK activation by TNF-alpha and IL-1. Another point mutation resulting in a cysteine-to-serine substitution within the putative Zn finger motif affected IKK activation by TNF-alpha but not by IL-1. These results may explain why cells that express these or similar mutant alleles are sensitive to TNF-alpha-induced apoptosis despite being able to activate NF-kappaB in response to other stimuli.
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PMID:The carboxyl-terminal region of IkappaB kinase gamma (IKKgamma) is required for full IKK activation. 1219 55

Proinflammatory activation of NF-kappaB requires an upstream kinase complex (IkappaB-kinase; IKK) composed of two catalytic subunits (IKKalpha and IKKbeta) and a noncatalytic regulatory component named NEMO (NF-kappaB essential modulator). NEMO interacts with a COOH-terminal sequence within both IKKs termed the NEMO-binding domain (NBD), and a cell-permeable NBD peptide blocks NEMO/IKKbeta interactions and inhibits tumor necrosis factor-alpha-induced NF-kappaB. We report here that a peptide encompassing the NBD not only blocked association of both IKKs with NEMO but also disrupted preformed NEMO/IKK complexes in vitro. Furthermore, peptide blocking and alanine-scanning mutation studies revealed differences between the NBDs of IKKalpha and IKKbeta, and mutational analysis of the IKKbeta NBD identified the physical properties required at each position to maintain association with NEMO. Finally, we demonstrate that loss of NEMO-binding by IKKbeta through deletion of the NBD renders it catalytically active and that potential phosphorylation within the IKKbeta NBD may serve as a signal to down-regulate IKK activity. Our findings therefore provide critical insight into the physical properties of the NBD that will be valuable for the design of drugs aimed at disrupting the IKK complex and also reveal potential regulatory mechanisms controlling the function of the IKK complex.
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PMID:Characterization of the Ikappa B-kinase NEMO binding domain. 1224 3

To gain insight in the subcellular localization of tumor necrosis factor receptor-associated factor (TRAF4) we analyzed GFP chimeras of full-length TRAF4 and various deletion mutants derived thereof. While TRAF4-GFP (T4-GFP) was clearly localized in the cytoplasm, the N-terminal deletion mutant, T4(259-470), comprising the TRAF domain of the molecule, and a C-terminal deletion mutant consisting mainly of the RING and zinc finger domains of TRAF4 were both localized predominantly to the nucleus. Passive nuclear localization of T4(259-470) can be ruled out as the TRAF domain of TRAF4 was sufficient to form high molecular weight complexes. T4(259-470) recruited full-length TRAF4 into the nucleus whereas TRAF4 was unable to change the nuclear localization of T4(259-470). Thus, it seems that individual T4(259-470) mutant molecules are sufficient to direct the respective TRAF4-T4(259-470) heteromeric complexes into the nucleus. In cells forming cell-cell contacts, TRAF4 was recruited to the sites of contact via its C-TRAF domain. The expression of some TRAF proteins is regulated by the NF-kappaB pathway. Thus, we investigated whether this pathway is also involved in the regulation of the TRAF4 gene. Indeed, in primary T-cells and Jurkat cells stimulated with the NF-kappaB inducers TNF or phorbol 12-myristate 13-acetate (PMA), TRAF4-mRNA was rapidly up-regulated. In Jurkat T-cells deficient for I-kappaB kinase gamma (IKKgamma, also known as NEMO), an essential component of the NF-kappaB-inducing-IKK complex, induction of TRAF4 was completely inhibited. In cells deficient for RIP (receptor interactive protein), an essential signaling intermediate of TNF-dependent NF-kappaB activation, TNF-, but not PMA-induced up-regulation of TRAF4 was blocked. These data suggest that activation of the NF-kappaB pathway is involved in up-regulation of TRAF4 in T-cells.
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PMID:Intracellular localization and transcriptional regulation of tumor necrosis factor (TNF) receptor-associated factor 4 (TRAF4). 1235 13

Biochemical studies have shown that microsomes represent an important subcellular fraction for determining 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) effects. Proteomic analysis by two-dimensional gel-mass spectrometry of liver microsomes was undertaken to gain new insight into the actions of TCDD in male and female rats. Proteomic analysis showed TCDD induced several xenobiotic metabolism enzymes as well as a protein at 90kDa identified by mass spectrometry as IkappaB kinase beta/IKK2. This observation led to the discovery of other NF-kappaB binding proteins and kinases in microsomes and effects by TCDD. Western blotting for IKK and IkappaB family members in microsomes showed a distinct pattern from cytosol. IKK1 and IKK2 were both present in microsomes and were catalytically active although, unlike cytosol, IKKgamma/NEMO was not detectable. TCDD exposure produced an elevation in cytosolic and microsomal IKK activity of both genders. The NF-kappaB binding proteins IkappaBbeta and IkappaBgamma were prevalent in microsomes, while IkappaBalpha and IkappaB epsilon proteins were absent. TCDD treatment produced hyperphosphorylation of microsomal IkappaBbeta in both sexes with females being most sensitive. In cytosol, IkappaBalpha, IkappaBbeta, and IkappaB epsilon, but not IkappaBgamma, were clearly observed but were not changed by TCDD. Overall, proteomic analysis indicated the presence of NF-kappaB pathway members in microsomes, selectively altered by dioxin, which may influence immune and inflammatory responses within the liver.
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PMID:Effects of TCDD upon IkappaB and IKK subunits localized in microsomes by proteomics. 1236 3

Human T-cell leukemia virus type 1 oncoprotein Tax activates NF-kappaB through direct binding to IKK-gamma, the regulatory component of the IkappaB kinase complex. Mechanisms by which IKK-gamma adapts the Tax signal to the IkappaB kinase are poorly understood. Here we demonstrate that IKK-gamma forms homodimer and homotrimer both in vitro and in yeast or mammalian cells through a C-terminal domain comprising amino acids 251-419. In contrast, Tax protein targets a central region of IKK-gamma, which consists of amino acids 201-250. Interestingly, Tax stimulates the oligomerization of IKK-gamma, likely through direct binding. Taken together, our findings suggest a new model of Tax activation of NF-kappaB, in which Tax interacts with IKK-gamma to stimulate its oligomerization.
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PMID:Stimulation of IKK-gamma oligomerization by the human T-cell leukemia virus oncoprotein Tax. 1243 99

The Nuclear factor (NF)-kappaB signalling pathway plays a critical role in the regulation and coordination of a wide range of cellular events such as cell growth, apoptosis and cell differentiation. Activation of the IKK (inhibitor of NF-kappaB kinase) complex is a crucial step and a point of convergence of all known NF-kappaB signalling pathways. To analyse bovine IKKalpha (IKK1), IKKbeta (IKK2) and IKKgamma (or NF-kappaB Essential MOdulator, NEMO) and their substrate IkappaBalpha (Inhibitor of NF-kappaB), the corresponding cDNAs of these molecules were isolated, sequenced and characterized. A comparison of the amino acid sequences with those of their orthologues in other species showed a very high degree of identity, suggesting that the IKK complex and its substrate IkappaBalpha are evolutionarily highly conserved components of the NF-kappaB pathway. Bovine IKKalpha and IKKbeta are related protein kinases showing 50% identity which is especially prominent in the kinase and leucine zipper domains. Co-immunoprecipitation assays and GST-pull-down experiments were carried out to determine the composition of bovine IKK complexes compared to that in human Jurkat T cells. Using these approaches, the presence of bovine IKK complexes harbouring IKKalpha, IKKbeta, NEMO and the interaction of IKK with its substrate IkappaBalpha could be demonstrated. Parallel experiments using human Jurkat T cells confirmed the high degree of conservation also at the level of protein-protein interactions. Finally, a yeast two-hybrid analysis showed that bovine NEMO molecules, in addition to the binding to IKKalpha and IKKbeta, also strongly interact with each other.
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PMID:Characterization of the bovine IkappaB kinases (IKK)alpha and IKKbeta, the regulatory subunit NEMO and their substrate IkappaBalpha. 1245 77

The mechanism by which TCR signaling activates NF-kappaB is poorly understood. We demonstrate here that the IKK kinase complex is recruited to the immunological synapse and can be coprecipitated with the TCR after T cell activation. Using ZAP-70-deficient T cells expressing a hybrid molecule between the SH2 domain of ZAP-70 and NEMO/IKKgamma, we showed that targeting NEMO to the immunological synapse, and more specifically its 120 N-terminal amino acids, was sufficient to selectively restore NF-kappaB activation in response to TCR ligation. Finally, we demonstrated that targeting of NEMO to the membrane of T cells was sufficient to induce constitutive NF-kappaB activation. This study shows that the localization of NEMO to the immunological synapse is important for TCR-induced NF-kappaB activation and offers a powerful system to dissect the NF-kappaB cascade in T cells.
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PMID:Induction of the NF-kappaB cascade by recruitment of the scaffold molecule NEMO to the T cell receptor. 1253 Sep 72

The proinflammatory cytokine interleukin-1 (IL-1) transmits a signal via several critical cytoplasmic proteins such as MyD88, IRAKs and TRAF6. Recently, serine/threonine kinase TAK1 and TAK1 binding protein 1 and 2 (TAB1/2) have been identified as molecules involved in IL-1-induced TRAF6-mediated activation of AP-1 and NF-kappa B via mitogen-activated protein (MAP) kinases and I kappa B kinases, respectively. However, their physiological functions remain to be clarified. To elucidate their roles in vivo, we generated TAB2-deficient mice. The TAB2 deficiency was embryonic lethal due to liver degeneration and apoptosis. This phenotype was similar to that of NF-kappa B p65-, IKK beta-, and NEMO/IKK gamma-deficient mice. However, the IL-1-induced activation of NF-kappa B and MAP kinases was not impaired in TAB2-deficient embryonic fibroblasts. These findings demonstrate that TAB2 is essential for embryonic development through prevention of liver apoptosis but not for the IL-1 receptor-mediated signaling pathway.
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PMID:TAB2 is essential for prevention of apoptosis in fetal liver but not for interleukin-1 signaling. 1255 83

The IkappaB kinase (IKK) complex mediates activation of transcription factor NF-kappaB by phosphorylation of IkappaB proteins. Its catalytic subunits, IKKalpha and IKKbeta, require association with the regulatory IKKgamma (NEMO) component to gain full basal and inducible kinase activity. However, the oligomeric composition of the IKK complex and its regulation by IKKgamma are poorly understood. We show here that IKKgamma predominantly forms tetramers and interacts with IKKalpha or IKKbeta in this state. We propose that tetramerization is accomplished by a prerequisite dimerization through a C-terminal coiled-coil minimal oligomerization domain (MOD). This is followed by dimerization of the dimers with their N-terminal sequences. Tetrameric IKKgamma sequesters four kinase molecules, yielding a gamma(4)(alpha/beta)(4) stoichiometry. Deletion of the MOD leads to loss of tetramerization and of phosphorylation of IKKbeta and IKKgamma, although the kinase can still interact with the resultant IKKgamma monomers and dimers. Likewise, MOD-mediated IKKgamma tetramerization is required to enhance IKKbeta kinase activity when overexpressed in 293 cells and to reconstitute a lipopolysaccharide-responsive IKK complex in pre-B cells. These data thus suggest that IKKgamma tetramerization enforces a spatial positioning of two kinase dimers to facilitate transautophosphorylation and activation.
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PMID:Tetrameric oligomerization of IkappaB kinase gamma (IKKgamma) is obligatory for IKK complex activity and NF-kappaB activation. 1261 76


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