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:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Taxol is the best anticancer agent that has ever been isolated from plants, but its major disadvantage is its dose-limiting toxicity. In this study, we report with mechanism-based evidence that curcumin, a nontoxic food additive commonly used by the Indian population, sensitizes tumor cells more efficiently to the therapeutic effect of Taxol. A combination of 5 nm Taxol with 5 microm curcumin augments anticancer effects more efficiently than Taxol alone as evidenced by increased cytotoxicity and reduced DNA synthesis in HeLa cells. Furthermore, our results reveal that this combination at the cellular level augments activation of caspases and cytochrome c release. This synergistic effect was not observed in normal cervical cells, 293 cells (in which Taxol down-regulates nuclear factor-kappaB (NF-kappaB)), or HeLa cells transfected with inhibitor kappaBalpha double mutant (IkappaBalpha DM), although the transfection itself sensitized the cells to Taxol-induced cytotoxicity. Evaluation of signaling pathways common to Taxol and curcumin reveals that this synergism was in part related to down-regulation of NF-kappaB and serine/threonine kinase Akt pathways by curcumin. An electrophoretic mobility shift assay revealed that activation of NF-kappaB induced by Taxol is down-regulated by curcumin. We also noted that curcumin-down-regulated Taxol induced phosphorylation of the serine/threonine kinase Akt, a survival signal which in many instances is regulated by NF-kappaB. Interestingly, tubulin polymerization and cyclin-dependent kinase Cdc2 activation induced by Taxol was not affected by curcumin. Altogether, our observations indicate that Taxol in combination with curcumin may provide a superior therapeutic index and advantage in the clinic for the treatment of refractory tumors.
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PMID:Sensitization of taxol-induced apoptosis by curcumin involves down-regulation of nuclear factor-kappaB and the serine/threonine kinase Akt and is independent of tubulin polymerization. 3007 55

We previously demonstrated that TNF-alpha-dependent activation of p65 nuclear factor kappaB in rat thyroid FRTL-5 cells requires TSH. In the present study, we investigated the mechanism of this TSH action. Western blot analysis revealed that, in both the presence and absence of TSH, degradation of a cytosolic kappaB inhibitor (IkappaBalpha) occurred in response to TNF-alpha, resulting in nuclear translocation of p65 in both conditions. However, no DNA binding of p65 was detected in the absence of TSH, suggesting that posttranslational modification of p65 by TSH is required for its binding. Treatment of the cells cultured in the presence of TSH with a protein kinase A (PKA) inhibitor, H89, markedly reduced p65 binding and its transcriptional activity. However, transient block of TSH/cAMP-dependent activation of PKA catalytic subunit (PKAc) by adenylate cyclase inhibitor, SQ22536, had no effects on the p65 activation. Interestingly, it was found that PKAc formed a complex with IkappaBalpha and beta only in the presence of TSH, and this PKAc could be activated by TNF-alpha. TNF-alpha-dependent p65 activation was temporally associated with PKAc/IkappaBalpha complex formation. More than 3 h exposure of TSH was required for the complex formation and p65 activation. These results demonstrate that TSH induces the formation of PKAc/IkappaB complex in FRTL-5 cells and that this PKAc bound with IkappaB plays a critical role in TNF-alpha-dependent activation of p65.
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PMID:Requirement of thyrotropin-dependent complex formation of protein kinase A catalytic subunit with inhibitor of {kappa}B proteins for activation of p65 nuclear factor-{kappa}B by tumor necrosis factor-{alpha}. 1563 92

Serum and glucocorticoid inducible protein kinase (SGK) plays a crucial role in promoting cell survival, but the mechanisms for this response are not clear. We show that SGK is involved in the regulation of apoptosis in breast cancer cells by modulating the transcriptional activity of nuclear transcription factor kappaB (NF-kappaB). High levels of SGK expression were observed in human breast cancer samples. When SGK was reduced the apoptotic rate increased, and increased SGK activity prevents serum withdrawal-induced apoptosis. SGK-induced cell survival was abolished by a dominant-negative form of IkappaB kinase beta (IKKbeta, K44A) or a null mutation of IKKbeta in mouse embryonic fibroblast cells indicating involvement of the NF-kappaB pathway. Serum-induced SGK or increased expression of SGK activated NF-kappaB transcriptional activity, whereas small interference RNA to SGK blocked NF-kappaB activity. Coexpression of SGK and IKKbeta significantly increased the activation of NF-kappaB (versus expression of IKKbeta alone). Expression of dominant-negative IKKbeta K44A, IkappaBalpha AA, and kinase-dead SGK (127KM) blocked the ability of SGK to stimulate NF-kappaB activity, suggesting that IKKbeta is a target of SGK. We also show that SGK enhances the ability of IKKbeta to phosphorylate endogenous IkappaBalpha in cells or recombinant glutathione S-transferase-IkappaBalpha in vitro and increases IkappaBalpha degradation; SGK physically associates with and activates IKKbeta in MDA231 cells via phosphorylation of Ser(181) in IKKbeta. Taken together, we conclude that SGK acts as an oncogene in breast cancer cells through activation of the IKK-NF-kappaB pathway, thereby preventing apoptosis. Blocking SGK expression/activity represents a potential therapeutic approach for breast cancer treatment.
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PMID:Antiapoptotic effect of serum and glucocorticoid-inducible protein kinase is mediated by novel mechanism activating I{kappa}B kinase. 1569 87

Sustained activation of ERK 1/2 by a low dose (15 mg/kg ip) of S-1,2-dichlorovinyl-l-cysteine (DCVC) 72 h before administration of a lethal dose of DCVC (75 mg/kg ip) enhances renal cell division and protects mice against acute renal failure (ARF) and death (autoprotection). The objective of this study was to determine correlation among extent of S-phase DNA synthesis, activation of transcription factors, expression of G(1)/S cyclins, cyclin-dependent kinases (CDKs), and CDK inhibitors downstream of ERK 1/2 following DCVC-induced ARF in autoprotection. Administration of the lethal dose alone caused a general downregulation or an unsustainable increase, in transcriptional and posttranscriptional events thereby preventing G(1)-S transition of renal cell cycle. Phosphorylation of IkappaBalpha was inhibited resulting in limited nuclear translocation of NF-kappaB. However, cyclin D1 expression was high probably due to transcriptional cooperation of AP-1. Cyclin D1/cyclin-dependent kinase 4 (cdk4)-cdk6 system-mediated phosphorylation of retinoblastoma protein was downregulated due to overexpression of p16 at 24 h after exposure to the lethal dose alone. Inhibition of S-phase stimulation was confirmed by proliferating cell nuclear antigen assay (PCNA). This inhibitory response was prevented if the lethal dose was administered 72 h after the low priming dose of DCVC due to promitogenic effect of the low dose. NF-kappaB-DNA binding is not limited if mice were pretreated with the priming dose. Cyclin D1/cdk4-cdk6 expression stimulated by the priming dose of DCVC was unaltered even after the lethal dose in the autoprotected group, explaining higher phosphorylated-pRB and S-phase stimulation found in this group. These results were corroborated with PCNA immunohistochemistry. These findings suggest that the priming dose relieves the block on compensatory tissue repair by upregulation of promitogenic mechanisms, normally blocked by the high dose when administered without the prior priming dose.
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PMID:Molecular mechanisms of enhanced renal cell division in protection against S-1,2-dichlorovinyl-L-cysteine-induced acute renal failure and death. 1574 5

In this study, we show that IFNalpha increases the chemotaxis of human B cells to CCL20, CCL21 and CXCL12 in a dose- and time-dependent manner. The effect was maximal with 2000 IU ml(-1) IFNalpha. It peaked at 24 h and decreased thereafter. At 24 h, IFNalpha had increased B-cell chemotaxis to CCL20 by 20 +/- 6.2% (n = 9, P < 0.002), to CCL21 by 20 +/- 8.5% (n = 14, P < 0.0001) and to CXCL12 by 16.3 +/- 4.2% (n = 12, P < 0.003) without changing CCR6, CCR7 or CXCR4 expression. IFNalpha enhanced the migration of memory B cells to CCL20, CCL21 and CXCL12 2.6-fold more strongly than that of naive B cells. The triggering of chemokine receptors by their ligands resulted in the activation of phosphatidylinositide-3 kinase (PI3K)/protein kinase B (PKB), inhibitory NF-kappaB (IkappaBalpha) RhoA and extracellular signal-regulated protein kinase 1/2 (ERK1/2). All these effectors except ERK1/2 are crucial for B-cell chemotaxis. IFNalpha modulated the requirements for B-cell chemotaxis, which became dependent on ERK1/2, more dependent on PI3K, RhoA and nuclear factor-kappaB but less dependent on Gbetagamma and phospholipase C activation. IFNalpha also decreased ligand-induced chemokine receptor internalization in a manner dependent on PI3K/AKT and RhoA but not on IkappaBalpha and ERK1/2. Our data characterize chemokine receptor signaling in human B cells and clarify the relevance of downstream pathways in B-cell chemotaxis and chemokine receptor internalization. They also suggest that non-class I PI3K are involved in B-cell chemotaxis.
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PMID:IFN{alpha} enhances human B-cell chemotaxis by modulating ligand-induced chemokine receptor signaling and internalization. 1574 30

Nuclear factor-kappaB (NF-kappaB) is a transcription factor with important roles in regulating innate immune and inflammatory responses. NF-kappaB is activated through the phosphorylation of its inhibitor, IkappaB, by the IkappaB kinase (IKK) complex. Physical exercise elicits changes in skeletal muscle gene expression, yet signaling cascades and transcription factors involved remain largely unknown. To determine whether NF-kappaB signaling is regulated by exercise in vivo, rats were run on a motorized treadmill for 5-60 min. Exercise resulted in up to twofold increases in IKKalpha/beta phosphorylation in the soleus and red gastrocnemius muscles throughout the time course studied. In red gastrocnemius muscles, NF-kappaB activity increased 50% 1-3 h after 60 min of treadmill exercise, returning to baseline by 5 h. Contraction of isolated extensor digitorum longus muscles in vitro increased IKKalpha/beta phosphorylation sevenfold and this was accompanied by a parallel increase in IkappaBalpha phosphorylation. Additional kinases that are activated by exercise include p38, extracellular-signal regulated protein kinase (ERK), and AMP-activated protein kinase (AMPK). Inhibitors of p38 (SB-203580) and ERK (U-0126) blunted contraction-mediated IKK phosphorylation by 39 +/- 4% (P = 0.06) and 35 +/- 10% (P = 0.09), respectively, and in combination by 76 +/- 5% (P < 0.05), suggesting that these kinases might influence the activation of IKK and NF-kappaB during exercise. In contrast, 5-aminoimidazole-4-carboxamide-1-beta-D-ribofuranoside, an activator of AMPK, had no effect on either IKK or NF-kappaB activity. In conclusion, acute submaximal exercise transiently stimulates NF-kappaB signaling in skeletal muscle. This activation is a local event because it can occur in the absence of exercise-derived systemic factors.
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PMID:Regulation of IkappaB kinase and NF-kappaB in contracting adult rat skeletal muscle. 1588 49

Cigarette smoke contains several carcinogens known to initiate and promote tumorigenesis as well as metastasis. Nicotine is one of the major components of the cigarette smoke and the 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK) is a tobacco-specific carcinogen. Here, we demonstrated that NNK stimulated cell proliferation in normal human bronchial epithelial cells (NHBE) and small airway epithelial cells (SAEC). Cells exposed to NNK resulted in an increase in the level of cyclin D1 protein (as early as 3-6 h). Increased phosphorylation of the Rb Ser(795) was detected at 6-15 h after NNK treatment and thereby promoted cells entering into the S phase (at 15-21 h). The increased cyclin D1 protein level was induced through activation of the transcription factor, nuclear factor kB (NFkappaB), in the NHBE cells. Treatment of the NHBE cells with PD98059, an ERK1/2 (extracellular signal-regulated protein kinase)-specific inhibitor, specifically suppressed the NNK-induced IkappaBalpha phosphorylation at position 32 of the serine residue, suggesting that the ERK1/2 kinase was involved in the IkappaBalpha phosphorylation induced by NFkappaB activation. To determine whether the NNK-induced NFkappaB activation and cyclin D1 induction were also observed in vivo, A/J mice were treated with NNK (9.1 mg) for 20 weeks and the results showed a significant induction of cyclin D1 and NFkappaB translocation determined by immunoblotting analyses. We further demonstrated that the nicotine acetylcholine receptor (nAchR), which contains the alpha3-subunit, was the major target mediating NNK-induced cyclin D1 expression in the NHBE cells. In summary, our findings demonstrate for the first time that NNK could stimulate normal human bronchial cell proliferation through activation of the NFkappaB, which in turn up-regulated the cyclin D1 expression.
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PMID:Tobacco-specific carcinogen 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK) induces cell proliferation in normal human bronchial epithelial cells through NFkappaB activation and cyclin D1 up-regulation. 1589 41

Collecting duct (CD) principal cells are exposed to large physiologic variations of apical Na+ influx as a result of variations of Na(+) intake and extrarenal losses. It was shown previously that increasing intracellular [Na+] induces recruitment of Na,K-ATPase to the cell surface in a protein kinase A (PKA)-dependent manner in both native and cultured renal CD principal cells. As described previously in response to cytokines in nonrenal cells, PKA activation in response to increased intracellular [Na+] was independent of cAMP and required proteasomal activity. With the use of cultured mpkCCD(cL4) cells as a model of CD principal cells, whether cytokines and increased intracellular [Na+] share a common signaling pathway leading to cell-surface Na,K-ATPase recruitment was investigated. Results showed that two potent inducers of NF-kappaB, LPS and TNF-alpha, enhance Na+ transport and induce cell-surface Na,K-ATPase recruitment in mpkCCD(cL4) cells via cAMP-independent PKA activation. In addition, increased intracellular [Na+] after selective plasma membrane permeabilization by a low concentration of the Na+ ionophore amphotericin B (1 microg/ml) induced dissociation of the PKA catalytic subunit from p65-NF-kappaB and IkappaBalpha. Moreover, inhibitors of NF-kappaB/IkappaB dissociation prevented both Na+-dependent stimulation of PKA activity and cell-surface Na,K-ATPase recruitment. Altogether, these results revealed the presence of a novel Na+-dependent intracellular signaling pathway leading to Na,K-ATPase cell-surface recruitment via dissociation of the PKA catalytic subunit from a macromolecular complex that contains NF-kappaB and IkappaBalpha in CD epithelial cells.
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PMID:Cytokines and sodium induce protein kinase A-dependent cell-surface Na,K-ATPase recruitment via dissociation of NF-kappaB/IkappaB/protein kinase A catalytic subunit complex in collecting duct principal cells. 1600 Jun 98

Interleukin-6 (IL-6), and the related cytokines IL-11, leukemia inhibitory factor (LIF) and oncostatin M (OSM), are potent stimulators of osteoclastic bone resorption. In the present study, we have addressed the possibility that the neuropeptide vasoactive intestinal peptide (VIP) may regulate the production of and/or sensitivity to the IL-6 family of cytokines in mouse calvarial osteoblasts. VIP stimulated IL-6 mRNA expression and protein release in a time- and concentration-dependent manner, whereas mRNA expression of the IL-6 receptor, as well as mRNA expressions of IL-11, LIF, OSM and their cognate receptors, were unaffected by VIP. In cells transfected with the IL-6 promoter coupled to luciferase, VIP increased transcriptional activity. The effects of VIP were shared by the related neuropeptide PACAP-38, belonging to the same superfamily of neuropeptides, whereas secretin did not have any effect, indicating that the effects were mediated by VPAC2 receptors. The effects of VIP were potentiated by the cyclic AMP phosphodiesterase inhibitor rolipram and mimicked by forskolin, indicating the involvement of the cyclic AMP/protein kinase A pathway. This was further demonstrated by the facts that the stimulatory effect of VIP on luciferase activity could be reversed by the PKA inhibitors H-89 and KT5720 and was mimicked by cyclic AMP analogues selective for PKA, but not by those selective for Epac. In addition, VIP enhanced the phosphorylation of CREB, as assessed by both immunocytochemical analysis and Western blot. The DNA binding activity of nuclear extracts to C/EBP was increased by VIP, whereas binding to AP-1 was decreased. In contrast, DNA binding to NF-kappaB, as well as nuclear translocation of NF-kappaB and C/EBP, were unaffected by VIP. The mRNA expressions of C/EBPbeta, C/EBPdelta, C/EBPgamma, c-Jun, JunB, c-Fos, Fra-1 and IkappaBalpha and protein level of IkappaBalpha were all unaffected by VIP. These observations, together, demonstrate that VIP stimulates IL-6 production in osteoblasts by a mechanism likely to be mediated by VPAC2 receptors and dependent on cyclic AMP/protein kinase A/CREB activation and also involving the transcription factors C/EBP and AP-1.
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PMID:Increased expression of interleukin-6 by vasoactive intestinal peptide is associated with regulation of CREB, AP-1 and C/EBP, but not NF-kappaB, in mouse calvarial osteoblasts. 1608 72

Treatment of human osteosarcoma cell line MG 63 cells with okadaic acid stimulated phosphorylation of IkappaBalpha, as judged from the results of Western blot analysis and a lambda protein phosphatase dephosphorylation assay. The stimulated phosphorylation of IkappaBalpha was both time- and dose-dependent. The phosphorylation sites of IkappaBalpha were taken to be tyrosine residues because the anti-phospho-tyrosine antibody bound to the samples immunoprecipitated with the anti-IkappaBalpha antibody. In the cells treated with 100 nM okadaic acid consequential translocation of NF-kappaB p65 from the cytosol to the nucleus occurred. Double-stranded RNA-dependent protein kinase (PKR) is a player in the cellular antiviral response and is involved in transcriptional stimulation through activation of NF-kappaB. We investigated the functional relationship between PKR and IkappaBalpha phosphorylation by constructing MG 63 PKR K/R cells that produced a catalytically inactive mutant PKR. NF-kappaB p65 was detected in the nucleus of these cells, even in the unstimulated cells. Although IkappaBalpha was degraded phosphorylation of eIF-2 alpha, a substrate of PKR, did not occur in the mutant cells treated with okadaic acid. Our results suggest that okadaic acid-induced tyrosine phosphorylation of IkappaBalpha was mediated by PKR kinase activity, thus indicating the involvement of this kinase in the control mechanism governing the activation of NF-kappaB.
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PMID:Okadaic acid induces tyrosine phosphorylation of IkappaBalpha that mediated by PKR pathway in human osteoblastic MG63 cells. 1613 3


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