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)

Anandamide (arachidonoylethanolamine, AEA), an endogenous agonist for both the cannabinoid CB(1) receptor and the vanilloid VR1 receptor, elicits neurobehavioral, anti-inflammatory, immunomodulatory, and proapoptotic effects. Because of the central role of nuclear factor-kappaB (NF-kappaB) in the inflammatory process and the immune response, we postulated that AEA might owe some of its effects to the suppression of NF-kappaB. This study shows that AEA inhibits tumor necrosis factor-alpha (TNFalpha)-induced NF-kappaB activation by direct inhibition of the IkappaB kinase (IKK)beta and, to a lesser extent, the IKKalpha subunits of kappaB inhibitor (IkappaB) kinase complex, and that IKKs inhibition by AEA correlates with inhibition of IkappaBalpha degradation, NF-kappaB binding to DNA, and NF-kappaB-dependent transcription in TNFalpha-stimulated cells. AEA also prevents NF-kappaB-dependent reporter gene expression induced by mitogen-activated protein kinase kinase kinase and NF-kappaB-inducing kinase. The NF-kappaB inhibitory activity of AEA was independent of CB(1) and CB(2) activation in TNFalpha-stimulated 5.1 and A549 cell lines, which do not express vanilloid receptor 1, and was not mediated by hydrolytic products formed through the activity of the enzyme fatty acid amide hydrolase. Chemical modification markedly affected AEA inhibitory activity on NF-kappaB, suggesting rather narrow structure-activity relationships and the specific interaction with a molecular target. Substitution of the alkyl moiety with less saturated fatty acids generally reduced or abolished activity. However, replacement of the ethanolamine "head" with a vanillyl group led to potent inhibition of TNFalpha-induced NF-kappaB-dependent transcription. These findings provide new mechanistic insights into the anti-inflammatory and proapoptotic activities of AEA, and should foster the synthesis of improved analogs amenable to pharmaceutical development as anti-inflammatory agents.
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PMID:Anandamide inhibits nuclear factor-kappaB activation through a cannabinoid receptor-independent pathway. 1252 15

In 16HBE14o- human bronchial epithelial cells, maximal tumor necrosis factor (TNF)-alpha-induced interleukin (IL)-8 expression depends on the activation of two distinct signaling pathways, one constituted in part by activator protein (AP)-1 and the other by nuclear factor (NF)-kappaB. We examined the upstream signaling intermediates responsible for IL-8 and granulocyte-macrophage colony-stimulating factor (GM-CSF) expression in this system, hypothesizing that p21 Ras and mitogen-activated protein kinase/extracellular signal-regulated kinase kinase kinase (MEKK)-1 function as common upstream activators of both the AP-1 and NF-kappaB pathways. TNF-alpha treatment induced both Ras and MEKK1 activation. Dominant-negative forms of Ras (N17Ras) and MEKK1 (MEKK1-KM) each inhibited TNF-alpha-induced transcription from IL-8 and GM-CSF promoters. Ras was required for maximal activation of extracellular signal-regulated kinase (ERK) and Jun amino terminal kinase (JNK) as well as AP-1 and NF-kappaB transcriptional activities, but not for activation of IkappaB kinase (IKK)-beta, an upstream activator of NF-kappaB. MEKK1 was required for maximal activation of ERK, JNK, and IKK, as well as for maximal AP-1 and NF-kappaB transcriptional activities. We conclude that Ras regulates TNF-alpha-induced chemokine expression by activating the AP-1 pathway and enhancing transcriptional function of NF-kappaB, whereas MEKK1 activates both the AP-1 and NF-kappaB pathways.
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PMID:Ras and mitogen-activated protein kinase kinase kinase-1 coregulate activator protein-1- and nuclear factor-kappaB-mediated gene expression in airway epithelial cells. 1260 Aug 18

Arsenic can induce apoptosis and is an efficient drug for the treatment of acute promyelocytic leukemia. Currently, clinical studies are investigating arsenic as a therapeutic agent for a variety of malignancies. In this study, Hodgkin/Reed-Sternberg (HRS) cell lines served as model systems to characterize the role of nuclear factor-kappaB (NF-kappaB) in arsenic-induced apoptosis. Arsenic rapidly down-regulated constitutive IkappaB kinase (IKK) as well as NF-kappaB activity and induced apoptosis in HRS cell lines containing functional IkappaB proteins. In these cell lines, apoptosis was blocked by inhibition of caspase-8 and caspase-3-like activity. Furthermore, arsenic treatment down-regulated NF-kappaB target genes, including tumor necrosis factor-alphareceptor-associated factor 1 (TRAF1), c-IAP2, interleukin-13 (IL-13), and CCR7. In contrast, cell lines with mutated, functionally inactive IkappaB proteins or with a weak constitutive IKK/NF-kappaB activity showed no alteration of the NF-kappaB activity and were resistant to arsenic-induced apoptosis. A direct role of the NF-kappaB pathway in arsenic-induced apoptosis is shown by transient overexpression of NF-kappaB-p65 in L540Cy HRS cells, which protected the cells from arsenic-induced apoptosis. In addition, treatment of NOD/SCID mice with arsenic trioxide induced a dramatic reduction of xenotransplanted L540Cy Hodgkin tumors concomitant with NF-kappaB inhibition. We conclude that inhibition of NF-kappaB contributes to arsenic-induced apoptosis. Furthermore, pharmacologic inhibition of the IKK/NF-kappaB activity might be a powerful treatment option for Hodgkin lymphoma.
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PMID:Inhibition of NF-kappaB essentially contributes to arsenic-induced apoptosis. 1267 92

We have recently identified a novel gene, named CIKS (Connection to IKK-complex and SAPK), able to activate the transcription factor NF-kappaB, after interaction with the regulatory subunit NEMO/IKKgamma of IKK complex, and the stress-activated protein kinase (SAPK)/JNK. CIKS mRNA is ubiquitously expressed, although its levels differ greatly among different tissues. The aim of this study is to identify and characterize the promoter region of CIKS gene and to analyse the regulation of its expression by different cytokines. The transcription start site of CIKS mRNA was mapped both by primer extension and by a polymerase chain reaction (PCR)-based strategy. The proximal 5'-flanking region of CIKS gene was 'TATA-less', but contained other consensus promoter elements including an initiator (Inr), 'GC' and 'CAAT' boxes. Transfection of luciferase reporter plasmids containing 1.8 kb of the 5'-flanking region increased luciferase activity in epithelial MDCK cells, but not in endothelial HUVEC cells. Deletion analysis identified a sequence from -464 to -220 bp of the 5'-flanking region of CIKS gene essential for basal promoter activity in MDCK cells. Competitive reverse transcriptase-PCR, Northern and Western blot assays showed that different cytokines, such as tumor necrosis factor (TNF)-alpha, Interleukin (IL)-1beta and transforming growth factor (TGF)-beta, dramatically increased CIKS mRNA expression in HeLa cells. We conclude that the proximal 5'-flanking region of CIKS gene contains a functional promoter and binding sites for nuclear proteins leading to its basal transcription. Moreover, we demonstrate that the expression of CIKS is up-regulated by different cytokines.
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PMID:Promoter identification of CIKS, a novel NF-kappaB activating gene, and regulation of its expression. 1270 92

The role of tumor necrosis factor (TNF) receptor-associated factor (TRAF)-1 in NF-kappaB activation by various members of the TNF receptor family is not well understood, and conflicting data have been published. Here, we show that TRAF1 differentially affects TRAF2 recruitment and activation of NF-kappaB by members of the TNF receptor family. Interestingly, a naturally occurring caspase-derived cleavage product of TRAF1 solely comprising its TRAF domain (TRAF1-(164-416)) acted as a general inhibitor of NF-kappaB activation. In contrast, a corresponding fragment generated by cleavage of TRAF3 showed no effect in this regard. In accordance with these functional data, TRAF1, but not TRAF3, interacted with the IKK complex via its N-TRAF domain. Endogenous TRAF1 and the overexpressed TRAF domain of TRAF1 were found to be constitutively associated with the IKK complex, whereas endogenous receptor interacting protein was only transiently associated with the IKK complex upon TNF stimulation. Importantly, the caspase-generated TRAF1-fragment, but not TRAF1 itself inhibited IKK activation. Our results suggest that TRAF1 and TRAF1-(164-416) exert their regulatory effects on receptor-induced NF-kappaB activation not only by modulation of TRAF2 receptor interaction but especially TRAF1-(164-416) also by directly targeting the IKK complex.
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PMID:Caspase-mediated cleavage converts the tumor necrosis factor (TNF) receptor-associated factor (TRAF)-1 from a selective modulator of TNF receptor signaling to a general inhibitor of NF-kappaB activation. 1270 29

The hypoglycemic effects of high dose salicylates in the treatment of diabetes were documented before the advent of insulin. However, the molecular mechanisms by which salicylates exert these anti-diabetic effects are not well understood. In this study, we analyzed the effects of aspirin (acetylsalicylic acid) on serine phosphorylation of insulin receptor substrate 1 (IRS-1) in cells treated with tumor necrosis factor (TNF)-alpha. Phosphorylation of IRS-1 at Ser307, Ser267, and Ser612 was monitored by immunoblotting with phospho-specific IRS-1 antibodies. In 3T3-L1 and Hep G2 cells, phosphorylation of IRS-1 at Ser307 in response to TNF-alpha treatment correlated with phosphorylation of JNK, c-Jun, and degradation of IkappaBalpha. Moreover, phosphorylation of IRS-1 at Ser307 in embryo fibroblasts derived from either JNK or IKK knockout mice was reduced when compared with that in the wild-type controls. Taken together, these data suggest that serine phosphorylation of IRS-1 in response to TNF-alpha is mediated, in part, by JNK and IKK. Interestingly, aspirin treatment inhibited the phosphorylation of IRS-1 at Ser307 as well as the phosphorylation of JNK, c-Jun, and degradation of IkappaBalpha. Furthermore, other serine kinases including Akt, extracellular regulated kinase, mammalian target of rapamycin, and PKCzeta were also activated by TNF-alpha (as assessed by phospho-specific antibodies). Phosphorylation of IRS-1 at Ser267 and Ser612 correlated with the activation of these kinases. Phosphorylation of Akt and the mammalian target of rapamycin (but not extracellular regulated kinase or PKCzeta) in response to TNF-alpha was inhibited by aspirin treatment. Finally, aspirin rescued insulin-induced glucose uptake in 3T3-L1 adipocytes pretreated with TNF-alpha. We conclude that aspirin may enhance insulin sensitivity by protecting IRS proteins from serine phosphorylation catalyzed by multiple kinases.
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PMID:Aspirin inhibits serine phosphorylation of insulin receptor substrate 1 in tumor necrosis factor-treated cells through targeting multiple serine kinases. 1271

Focal adhesion kinase (FAK) is widely involved in important cellular functions such as proliferation, migration, and survival, although its roles in immune and inflammatory responses have yet to be explored. We demonstrate a critical role for FAK in the tumor necrosis factor (TNF)-induced activation of nuclear factor (NF)-kappaB, using FAK-deficient (FAK-/-) embryonic fibroblasts. Interestingly, TNF-induced interleukin (IL)-6 production was nearly abolished in FAK-/- fibroblasts, whereas a normal level of production was obtained in FAK+/- or FAK+/+ fibroblasts. FAK deficiency did not affect the three types of mitogen-activated protein kinases, ERK, JNK, and p38. Similarly, TNF-induced activation of activator protein 1 or NF-IL-6 was not impaired in FAK-/- cells. Of note, TNF-induced NF-kappaB DNA binding activity and activation of IkappaB kinases (IKKs) were markedly impaired in FAK-/- cells, whereas the expression of TNF receptor I or other signaling molecules such as receptor-interacting protein (RIP), tumor necrosis factor receptor-associated factor 2 (TRAF2), IKKalpha, IKKbeta, and IKKgamma was unchanged. Also, TNF-induced association of FAK with RIP and subsequent association of RIP with TRAF2 were not observed, resulting in a failure of RIP to recruit the IKK complex in FAK-/- cells. The reintroduction of wild type FAK into FAK-/- cells restored the interaction of RIP with TRAF2 and the IKK complex and allowed recovery of NF-kappaB activation and subsequent IL-6 production. Thus, we propose a novel role for FAK in the NF-kappaB activation pathway leading to the production of cytokines.
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PMID:Tumor necrosis factor-induced nuclear factor kappaB activation is impaired in focal adhesion kinase-deficient fibroblasts. 1274 69

The expression of inducible nitric-oxide synthase (iNOS) in vascular smooth muscle cells leads to prolonged vasorelaxation in vivo and contributes to the profound vasodilation induced by bacterial lipopolysaccharide (LPS) in septic shock. This induction of iNOS depends, in large part, on activation of nuclear factor (NF)-kappaB. Hypertonicity regulates the activity of NF-kappaB in different cell lines; as such, we propose that it should also regulate the expression of iNOS. Thus, the goal of this study was to determine whether hypertonicity regulates iNOS expression and function in smooth muscle cells and to elucidate the mechanism(s) underlying this process. Treatment of hamster ductus deferens (DDT1MF-2) cells and porcine aortic smooth muscle cells with either mannitol (50 mM) or NaCl (50 mM) reduced LPS-stimulated iNOS expression and nitric oxide release. Both of these agents also reduced the activation of NF-kappaB induced by LPS, tumor necrosis factor-alpha and interleukin-1beta in smooth muscle cells. This inhibitory action was caused by suppression of IkappaB-alpha phosphorylation, a prerequisite for ubiquitination and degradation of this protein, and showed additivity with N-benzoyloxycarbonyl (Z)-Leu-Leu-leucinal (MG-132), an inhibitor of proteasomal degradation of IkappaB-alpha. Furthermore, exposure to mannitol inhibited the activity of IkappaB kinase, an enzyme involved in phosphorylation of IkappaB-alpha. Mannitol was unable to affect the induction of iNOS produced by overexpression of RelA in DDT1MF-2 cells, suggesting that this agent does not have additional downstream inhibitory actions on this activated NF-kappaB subunit. Taken together, these data suggest that these hypertonic solutions may prove useful as anti-inflammatory agents, especially against conditions associated with increased NF-kappaB activity.
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PMID:Hypertonicity inhibits lipopolysaccharide-induced nitric oxide synthase expression in smooth muscle cells by inhibiting nuclear factor kappaB. 1276 33

Following binding its death receptor on the plasma membrane, tumor necrosis factor (TNF) induces the receptor trimerization and recruits a number of death domain-containing molecules to form the receptor complex. The complex promotes activation of downstream caspase cascade and induces degradation of IkappaBalpha. Caspases are activated using mechanisms of oligomeration and 'self-controlled proteolysis'. According to their structures and functions, apoptosis related caspases can be divided into upstream and downstream caspases. In general, upstream caspases cleave and activate downstream caspases by proteolysis of the Asp-X site. Activated caspases then cleaved target substrates. To date, more than 70 proteins have been identified to be substrates of caspases in mammalian cells. Caspases can alter the function of their target proteins by destroying structural components of the cytoskeleton and nuclear scaffold or by removing their regulatory domains. Activation of NF-kappaB is dependent on the degradation of IkappaBalpha. IkappaB kinase (IKK) phosphorylates IkappaBalpha at the residues 32 and 36 followed by polyubiquitination at lysine 21 and 22 and subsequent degradation of the molecules by 26S proteasome. There is extensive crosstalk between the apoptotic and NF-kappaB signaling pathways that emanate from TNF-R1. On the one hand, activation of NF-kappaB can inactivate caspases; on the other hand, activated caspases can inhibit the activation of NF-kappaB. Both processes involve in proteolysis. This crosstalk may be important for maintaining the balance between the two pathways and for determining whether a cell should live or die.
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PMID:Proteolytic signaling by TNFalpha: caspase activation and IkappaB degradation. 1282 2

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


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