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)

Nuclear factor kappaB (NF-kappaB) transcriptionally activates genes that promote immunity and cell survival. Activation of NF-kappaB is induced by an IkappaB kinase (IKK) complex that phosphorylates and promotes dissociation of IkappaB from NF-kappaB, which then translocates into the nucleus. Activation of phosphatidylinositol (PI) 3-kinase/Akt signaling by tumor necrosis factor (TNF) activates IKK and NF-kappaB. The present study shows that PTEN, a tumor suppressor that inhibits PI 3-kinase function, impairs TNF activation of Akt and the IKK complex in 293 cells. Transient expression of PTEN suppressed IKK activation and TNF-induced NF-kappaB DNA binding and transactivation. Studies were conducted with PC-3 prostate cancer cells that do not express PTEN and DU145 prostate cancer cells that express PTEN. TNF activated Akt in PC-3 cells, but not in DU145 cells, and the ability of TNF to activate NF-kappaB was blocked by pharmacological inhibition of PI 3-kinase activity in PC-3 cells, but not in DU145 cells. Expression of PTEN in PC-3 cells to a level comparable with that endogenously present in DU145 cells inhibited TNF activation of NF-kappaB. The cell type-specific ability of PTEN to negatively regulate the PI 3-kinase/AKT/NF-kappaB pathway may be important to its tumor suppressor activity.
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PMID:The PTEN tumor suppressor protein inhibits tumor necrosis factor-induced nuclear factor kappa B activity. 1135 44

Phosphatidylinositol 3'-kinase (PI3K) and the serine/threonine kinase AKT have critical roles in phosphorylating and transactivating the p65 subunit of nuclear factor kappaB (NF-kappaB) in response to the pro-inflammatory cytokines interleukin-1 (IL-1) and tumor necrosis factor (TNF). Mouse embryo fibroblasts (MEFs) lacking either the alpha or beta subunit of IkappaB kinase (IKK) were deficient in NF-kappaB-dependent transcription following treatment with IL-1 or TNF. However, in contrast to IKKbeta-null MEFs, IKKalpha-null MEFs were not substantially defective in the cytokine-stimulated degradation of Ikappabetaalpha or in the nuclear translocation of NF-kappaB. The IKK complexes from IKKalpha- or IKKbeta-null MEFs were both deficient in PI3K-mediated phosphorylation of the transactivation domain of the p65 subunit of NF-kappaB in response to IL-1 and TNF, and constitutively activated forms of PI3K or AKT did not potentiate cytokine-stimulated activation of NF-kappaB in either IKKalpha- or IKKbeta-null MEFs. Collectively, these data indicate that, in contrast to IKKbeta, which is required for both NF-kappaB liberation and p65 phosphorylation, IKKalpha is required solely for the cytokine-induced phosphorylation and activation of the p65 subunit of NF-kappaB that are mediated by the PI3K/AKT pathway.
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PMID:Distinct roles of the Ikappa B kinase alpha and beta subunits in liberating nuclear factor kappa B (NF-kappa B) from Ikappa B and in phosphorylating the p65 subunit of NF-kappa B. 1173 37

Nuclear factor-kappaB (NF-kappaB) is usually maintained in an inactive form in the cytoplasm through its association with inhibitor of kappaB (IkappaB) proteins, and is activated upon stimulation of cells with a variety of signals. However, constitutive activation of NF-kappaB is observed in a number of cancers including breast cancer. The signaling pathways that are involved in constitutive NF-kappaB activation remain largely unknown. Using breast cancer cell lines derived from transgenic mice that overexpress specific oncogene/growth factors in the mammary gland, we show that heregulin but not her2/neu, c-Myc or v-Ha-ras plays a major role in constitutive NF-kappaB activation. Her2/neu potentiated tumor necrosis factor alpha (TNFalpha)-inducible NF-kappaB activation whereas c-Myc potentiated 12-o-tetracecanyolphorbol-13-acetate (TPA)-induced NF-kappaB activation. Heregulin-mediated NF-kappaB activation correlated with phosphorylation of epidermal growth factor receptor (EGFR) and ErbB3 but not her2/neu. Tryphostin AG1517, which inhibits heregulin-mediated phosphorylation of EGFR, her2/neu and ErbB3 reduced NF-kappaB activation. In contrast, emodin, which blocks phosphorylation of her2/neu by heregulin, failed to reduce NF-kappaB activation. These results suggest that heregulin induces NF-kappaB independent of her2/neu. PI3 kinase/AKT, protein kinase A (PKA) and IkappaB kinase appear to be downstream signaling molecules involved in NF-kappaB activation as specific inhibitors of these kinases but not inhibitors of ERK/MAP kinase or protein kinase C reduced heregulin-mediated NF-kappaB activation. Based on these results, we propose that heregulin increases the expression of pro-invasive, pro-metastatic and anti-apoptotic genes in cancer cells through autocrine activation of NF-kappaB, which leads to invasive and drug-resistant growth of breast cancer.
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PMID:Identification of signal transduction pathways involved in constitutive NF-kappaB activation in breast cancer cells. 1196 Mar 79

Protein kinase B, also known as Akt, is a serine/threonine kinase and plays a critical role in the modulation of cell development, growth, and survival. Interestingly, Akt is ubiquitously expressed throughout the body, but its expression in the nervous system is substantially up-regulated during cellular stress, suggesting a more expansive role for Akt in the nervous system that may involve cellular protection. In this regard, a body of recent work has identified a robust capacity for Akt and its downstream substrates to foster both neuronal and vascular survival during apoptotic injury. Cell survival by Akt is driven by the modulation of both intrinsic cellular pathways that oversee genomic DNA integrity and extrinsic mechanisms that control inflammatory microglial activation. A series of distinct pathways are regulated by Akt that include the Forkhead family of transcription factors, GSK-3 beta, beta-catenin, c-Jun, CREB, Bad, IKK, and p53. Culminating below these substrates of Akt are the control of caspase mediated pathways that promote genomic integrity as well as prevent inflammatory cell demise. With further levels of progress in defining the cellular role of Akt, the attractiveness of Akt as a vital and broad cytoprotectant for both neuronal and vascular cell populations should continue to escalate.
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PMID:Activating Akt and the brain's resources to drive cellular survival and prevent inflammatory injury. 1557 47

The vasoactive hormone angiotensin II (Ang II) probably triggers inflammatory cardiovascular diseases by activating transcription factors such as NF-kappaB. We describe here a novel mode of NF-kappaB activation in cultured vascular smooth muscle cells exposed to Ang II. Ang II treatment resulted in an increase in the phosphotransferase activity of the IKK complex, which was mediated through the AT1 receptor subtype. The typical phosphorylation and proteasome-dependent degradation of the NF-kappaB inhibitor IkappaBalpha were not observed. Rather, Ang II treatment of vascular smooth muscle cells led to the phosphorylation of p65 on serine 536, a signal detected in both the cytoplasm and the nuclear compartments. The use of pharmacological inhibitors that inhibit the activation of MEK by Ang II revealed that phosphorylation of p65 on serine 536 did not require the MEK-ERK-RSK signaling pathway. On the other hand, specifically targeting the IKKbeta subunit of the IKK complex by overexpression of a dominant negative version of IKKbeta (IKKbeta K44A) or silencing RNA technology demonstrated that the IKKbeta subunit of the IKK complex was responsible for the detected phosphoserine 536 signal in Ang II-treated cells. Characterization of the signaling pathway leading to activation of the IKK complex by Ang II revealed that neither epidermal growth factor receptor transactivation nor the phosphatidylinositol 3-kinase-AKT signaling cascade were involved. Collectively, our data demonstrate that the proinflammatory activity of Ang II is independent of the classical pathway leading to IkappaBalpha phosphorylation and degradation but clearly depends on the recruitment of an IKK complex signaling cascade leading to phosphorylation of p65 on serine 536.
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PMID:The proinflammatory actions of angiotensin II are dependent on p65 phosphorylation by the IkappaB kinase complex. 1651 50

The Nuclear Factor-kappaB (NF-kappaB) family of transcription factors are ubiquitously expressed and control a wide range of cellular responses, including apoptosis, proliferation, differentiation, inflammation and immunity. Here, we investigated the function of the NF-kappaB upstream regulator IkappaB kinase 2/beta (IKK2) in apoptosis regulation in the normal physiological setting of regressing mammary gland. Conditional deletion of the gene encoding IKK2 resulted, surprisingly, in delayed apoptosis and remodelling, and abrogation of caspase 3 cleavage. This failure to induce involution was associated with reduced expression, within 24 hours of involution, of the death receptor (DR) ligand TNF and its receptor TNFR1, which are known NF-kappaB targets. This was associated with elevated levels of active AKT and phosphorylated FOXO3a. Furthermore, we show that expression of TWEAK, another DR ligand, is dramatically downregulated, even in heterozygous IKK2 mammary glands. Unlike other DR ligands, the TWEAK promoter has six consensus FOXO-binding sites, further suggesting that it is differentially regulated. Interestingly, a cleaved form of TWEAK is upregulated during involution. This unexpected function of the IKK2/NF-kappaB pathway as a regulator of TWEAK expression and inducer of apoptosis has significant consequences for future therapeutic approaches for cancer and inflammatory diseases.
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PMID:IKKbeta/2 induces TWEAK and apoptosis in mammary epithelial cells. 1688 27

Dendritic cells (DCs) play a key role in immune homeostasis and maintenance of self-tolerance. Tolerogenic DCs can be established by an encounter with apoptotic cells (ACs) and subsequent inhibition of maturation and effector functions. The receptor(s) and signaling pathway(s) involved in AC-induced inhibition of DCs have yet to be defined. We demonstrate that pretreatment with apoptotic but not necrotic cells inhibits activation of IkappaB kinase (IKK) and downstream NF-kappaB. Notably, receptor tyrosine kinase Mer (MerTK) binding of ACs is required for mediating this effect. Monocyte-derived DCs lacking MerTK expression (MerTKKD) or treated with blocking MerTK-specific antibodies (Abs) are resistant to AC-induced inhibition and continue to activate NF-kappaB and secrete proinflammatory cytokines. Blocking MerTK activation of the phosphatidylinositol 3-kinase (PI3K)/AKT pathway prevents AC-induced inhibition. These results demonstrate an essential role for MerTK-mediated regulation of the PI3K/AKT and NF-kappaB pathways in AC-induced inhibition of monocyte-derived DCs.
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PMID:Apoptotic cells induce Mer tyrosine kinase-dependent blockade of NF-kappaB activation in dendritic cells. 1700 47

AP-1/cJun, NF-kappaB and STAT3 transcription factors control expression of numerous genes, which regulate critical cell functions including proliferation, survival and apoptosis. Sodium arsenite is known to suppress both the IKK-NF-kappaB and JAK2-STAT3 signaling pathways and to activate the MAPK/JNK-cJun pathways, thereby committing some cancers to undergo apoptosis. Indeed, sodium arsenite is an effective drug for the treatment of acute promyelocytic leukemia with little nonspecific toxicity. Malignant melanoma is highly refractory to conventional radio- and chemotherapy. In the present study, we observed strong effects of sodium arsenite treatment on upregulation of TRAIL-mediated apoptosis in human and mouse melanomas. Arsenite treatment upregulated surface levels of death receptors, TRAIL-R1 and TRAIL-R2, through increased translocation of these proteins from cytoplasm to the cell surface. Furthermore, activation of cJun and suppression of NF-kappaB by sodium arsenite resulted in upregulation of the endogenous TRAIL and downregulation of the cFLIP gene expression (which encodes one of the main anti-apoptotic proteins in melanomas) followed by cFLIP protein degradation and, finally, by acceleration of TRAIL-induced apoptosis. Direct suppression of cFLIP expression by cFLIP RNAi also accelerated TRAIL-induced apoptosis in these melanomas, while COX-2 suppression substantially increased levels of both TRAIL-induced and arsenite-induced apoptosis. In contrast, overexpression of permanently active AKTmyr inhibited TRAIL-mediated apoptosis via downregulation of TRAIL-R1 levels. Finally, AKT overactivation increased melanoma survival in cell culture and dramatically accelerated growth of melanoma transplant in vivo, highlighting a role of AKT suppression for effective anticancer treatment.
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PMID:Sodium arsenite accelerates TRAIL-mediated apoptosis in melanoma cells through upregulation of TRAIL-R1/R2 surface levels and downregulation of cFLIP expression. 1707 May 20

We recently discovered a novel signaling phenomenon involving a rapid and transient rise in intracellular low molecular weight iron complex(es) in activation of IkappaB kinase (IKK) in hepatic macrophages. We also showed direct treatment with ferrous iron substitutes for this event to activate IKK. The present study used this model to identify upstream kinases responsible for IKK activation. IKK activation induced by iron is abrogated by overexpression of a dominant negative mutant (DN) for transforming growth factor beta-activated kinase-1 (TAK1), NF-kappaB-inducing kinase, or phosphatidylinositol 3-kinase (PI3K) and by treatment with the mitogen-activated protein kinase (MAPK) kinase-1 (MEK1) inhibitor. Iron increases AKT phosphorylation that is prevented by DNTAK1 or DNp21ras. Iron causes ERK1/2 phosphorylation that is attenuated by DN-PI3K, prevented by DNp21ras, but unaffected by DNTAK1. Iron-induced TAK1 activity is not affected by the PI3K or MEK1 inhibitor, suggesting TAK1 is upstream of PI3K and MEK1. Iron increases interactions of TAK1 and PI3K with p21ras as demonstrated by co-immunoprecipitation and co-localization of these proteins with caveolin-1 as shown by immunofluorescent microscopy. Finally, filipin III, a caveolae inhibitor, abrogates iron-induced TAK1 and IKK activation. In conclusion, MEK1, TAK1, NF-kappa-inducing kinase, and PI3K are required for iron-induced IKK activation in hepatic macrophages and TAK1, PI3K, and p21ras physically interact in caveolae to initiate signal transduction.
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PMID:Iron causes interactions of TAK1, p21ras, and phosphatidylinositol 3-kinase in caveolae to activate IkappaB kinase in hepatic macrophages. 1717 71

The regulatory subunit IKKgamma/NEMO is crucial for skin development and function and although devoid of kinase activity, loss of IKKgamma function completely abolishes the activation of NF-kappaB by all pro-inflammatory cytokines. To inhibit the IkappaB kinase (IKK) complex in keratinocytes, we have used a dominant negative approach by generating stable transfectants of an N-terminal deletion of IKKgamma (IKKgamma-DN97) that uncouples formation of the IKK complex. Expression of this mutant in PB keratinocytes (PB-IKKgamma-DN97) delayed growth kinetics, caused morphological changes and dramatically augmented apoptosis even in the absence of pro-apoptotic stimuli, as determined by cell morphology, TUNEL and caspase-3 cleavage. Moreover, in PB-IKKgamma-DN97 cells, TNF-alpha and IL-1 treatment failed to induce degradation of IkappaBalpha, phosphorylation of p65 on Ser 536 and nuclear translocation which, consequently, reduced kappaB-binding activity. In PB-IKKgamma-DN97 cells, accumulation of IkappaBalpha correlated with a downregulation of AKT activity and an increase of PTEN protein levels whereas pro-apoptotic p53 target genes Bax and Puma were upregulated. These effects were most likely mediated through IKK since coexpression of the wild-type form of IKKgamma in keratinocytes partially reversed apoptosis and reduced PTEN expression. Thus, our data suggest a negative cross-talk mechanism involving PTEN and NF-kappaB, critical for the anti-apoptotic role of NF-kappaB in keratinocytes.
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PMID:Deletion of the N-terminus of IKKgamma induces apoptosis in keratinocytes and impairs the AKT/PTEN signaling pathway. 1718 72


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