EC:2.7.11.1 - FACTA Search

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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)

We have previously shown that fetal rat brain cells, preneuronal (PC12), and hepatocyte (CWSV-1) cells undergo apoptosis during choline deficiency (CD). The PC12 and epithelial cell culture models were used to determine the molecular mechanism by which CD induces apoptosis. Our data indicate that CD leads to both growth arrest and apoptosis in a subpopulation of cells, which correlate with the up-regulation of the tumor suppressor protein p53 and concurrent up-regulation of the cyclin-dependent kinase-inhibitor p21(WAF1/CIP1). Additionally, CD induced both a G1/S and a G2/M arrest. Transient transfection of a dominant negative p53 (p53DN) construct into PC12 cells, which inhibited endogenous p53 activation, significantly reduced the induction of apoptosis associated with CD. Interestingly, CD also induced the persistent activation of the transcription factor NF-kappaB. Activation of NF-kappaB has been shown to promote cell survival and proposed to antagonize p53. Consistent with this, expression of a super-repressor form of IkappaBalpha (SR-IkappaBalpha) that functions to strongly inhibit NF-kappaB activation, profoundly enhanced cell death during CD. In summary, these results suggest that the effects of CD on apoptosis and subsequent cell survival are mediated through two different signaling pathways, p53 and NF-kappaB, respectively. Taken together, our data demonstrates the induction of opposing mechanisms associated with nutrient deficiency that may provide a molecular mechanism by which CD promotes carcinogenesis.
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PMID:Opposing regulation of choline deficiency-induced apoptosis by p53 and nuclear factor kappaB. 1148 91

Cytokines play important roles in the clearance of herpes simplex virus (HSV) infections and in virus-induced immunopathology. One cytokine known to contribute to resistance against HSV is interleukin-6 (IL-6). Here we have investigated virus-cell interactions responsible for IL-6 induction by HSV in leukocytes. Both HSV type 1 and type 2 are potent inducers of IL-6, and this phenomenon is augmented in the presence of gamma interferon. The ability to induce IL-6 is dependent on de novo protein synthesis and is sensitive to UV irradiation of the virus. Virus mutants lacking the virion-transactivating protein VP16 or any of the immediate-early proteins ICP0, ICP4, or ICP27 displayed unaltered capacities to induce IL-6. However, wild-type virus was unable to induce IL-6 in a macrophage cell line overexpressing a mutant of double-stranded RNA-activated protein kinase (PKR). This suggests a role for PKR in HSV-induced IL-6 expression. HSV infection led to enhanced binding to the kappaB, CRE, and AP-1 sites of the IL-6 promoter, and inhibitors against NF-kappaB and the p38 kinase strongly reduced accumulation of IL-6 mRNA in infected cells. Moreover, macrophage cell lines expressing dominant negative mutants of IkappaBalpha and p38 responded to HSV-1 infection with reduced IL-6 expression compared to the control-vector-transfected cell line. The results show that induction of IL-6 by HSV in leukocytes is dependent on PKR and cellular signaling through NF-kappaB and a p38-dependent pathway.
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PMID:Requirements for the induction of interleukin-6 by herpes simplex virus-infected leukocytes. 1148 45

The ubiquitin-conjugating enzyme, CDC34, has been implicated in the ubiquitination of a number of vertebrate substrates, including p27(Kip1), IkappaBalpha, Wee1, and MyoD. We show that mammalian CDC34 is a phosphoprotein that is phosphorylated in proliferating cells. By yeast two-hybrid screening, we identified the regulatory (beta) subunit of human casein kinase 2 (CK2) as a CDC34-interacting protein and show that human CDC34 interacts in vivo with CK2beta in transfected cells. CDC34 is specifically phosphorylated in vitro by recombinant CK2 and HeLa nuclear extract at five sites within the carboxyl-terminal 36 amino acids of CDC34. Importantly, this phosphorylation is inhibited by heparin, a substrate-specific inhibitor of CK2. We have also identified a kinase activity associated with CDC34 in proliferating cells, and we show that this kinase is sensitive to heparin and can utilize GTP, strongly suggesting it is CK2. Phosphorylation of CDC34 by the associated kinase maps predominantly to residues 203 and 222. Mutation of CDC34 at CK2-targeted residues, Ser-203, Ser-222, Ser-231, Thr-233, and Ser-236, abolishes the phosphorylation of CDC34 observed in vivo and markedly shifts nuclearly localized CDC34 to the cytoplasm. These results suggest a potential role for CK2-mediated phosphorylation in the regulation of CDC34 cell localization and function.
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PMID:Phosphorylation of the human ubiquitin-conjugating enzyme, CDC34, by casein kinase 2. 1154 11

Rapid IkappaBalpha turnover has been implicated in the high basal NF-kappaB activity in WEHI 231 B immature IgM(+) B cells. Here we show that treatment of WEHI 231 cells with apigenin, a selective inhibitor of the protein kinase CK2, decreased the rate of IkappaBalpha turnover and nuclear levels of NF-kappaB. Turnover of IkappaBalpha in these cells is mediated in part by the protease calpain. Since both CK2 and calpain target the proline-glutamic acid-serine-threonine (PEST) domain, we investigated the role of CK2 in the degradation of IkappaBalpha by calpain using an in vitro phosphorylation/degradation assay. CK2 phosphorylation enhanced mu-calpain-mediated degradation of wild-type IkappaBalpha, but not of mutant 3CIkappaBalpha, with S283A, T291A, and T299A mutations in phosphorylation sites within the PEST domain. Roles for CK2 and calpain in IkappaBalpha turnover were similarly shown in CH31 immature and CH12 mature IgM(+) B cells, but not in A20 and M12 IgG(+) B cells. These findings demonstrate for the first time that CK2 phosphorylation of serine/threonine residues in the PEST domain promotes calpain-mediated degradation of IkappaBalpha and thereby increases basal NF-kappaB levels in IgM(+) B cells.
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PMID:Phosphorylation by the protein kinase CK2 promotes calpain-mediated degradation of IkappaBalpha. 1167 97

Signal transduction pathways that lead to the modulation of genes related to survival and repair mechanisms are activated in neurons that survive injury. These protein kinase/phosphatase cascades converge on transcription factors, the DNA binding proteins that directly regulate gene expression. In this study we examined expression of the NF-kappaB p50 subunit in the rat hippocampus 7 days after injury caused by middle cerebral artery occlusion or trimethyltin treatment. We found increased levels of p50 in neurons throughout the hippocampus after both treatments, localized not only in cell bodies but also in processes. At the 7-day time point, Fluoro-Jade histochemistry revealed hippocampal neurodegeneration in trimethyltin-treated rats but not in those lesioned by middle cerebral artery occlusion. p50 was not expressed in Fluoro-Jade-positive degenerating cells, supporting the role of this transcriptional subunit in neurosurvival. Because phosphorylation of the inhibitor IkappaB protein by IkappaB kinase is the classic step in NF-kappaB activation, phospho-IkappaBalpha immunoreactivity was examined as an indication of IkappaB kinase activity. Levels of phospho-IkappaBalpha were increased in neurons throughout the hippocampus 7 days postinjury. Immunoblotting for phospho-IkappaBalpha demonstrated increased levels 1 day postinjury that remained elevated for at least 7 days. These data suggest that NF-kappaB signal transduction is involved in an adaptive response of neurons that survive injury.
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PMID:NF-kappaB p50 is increased in neurons surviving hippocampal injury. 1171 55

The ability of CD40 signaling to regulate B cell growth, survival, differentiation, and Ig class switching involves many changes in gene expression. Using cDNA expression arrays and Northern blotting, we found that CD40 signaling increased the mRNA levels for pim-1, a protooncogene that encodes a serine/threonine protein kinase. Subsequent experiments showed that CD40 engagement also increased both Pim-1 protein levels and Pim-1 kinase activity in B cells. We then investigated the signaling pathways by which CD40 regulates Pim-1 expression and found that CD40 up-regulates Pim-1 primarily via the activation of NF-kappaB. Inhibiting the activation of NF-kappaB, either by treating cells with a chemical inhibitor, BAY11-7082, or by inducibly expressing a superrepressor form of IkappaBalpha, significantly impaired the ability of CD40 to increase Pim-1 protein levels. Because Pim-1 expression is associated with cell proliferation and survival, we asked whether this correlated with the ability of CD40 signaling to prevent anti-IgM-induced growth arrest in the WEHI-231 murine B cell line, a model for Ag-induced clonal deletion. We found that the anti-IgM-induced growth arrest in WEHI-231 cells correlated with a substantial decrease in Pim-1 levels. In contrast, culturing WEHI-231 cells with either anti-CD40 Abs or with the B cell mitogen LPS, both of which prevent the anti-IgM-induced growth arrest, also prevented the rapid decline in Pim-1 levels. This suggests that Pim-1 could regulate the survival and proliferation of B cells.
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PMID:CD40 signaling in B cells regulates the expression of the Pim-1 kinase via the NF-kappa B pathway. 1177 68

Tumor necrosis factor (TNF) is one of the most potent activators of nuclear transcription factor NF-kappaB, c-Jun N-terminal protein kinase (JNK), and apoptosis in a wide variety of cells. The biological effects of TNF are mediated through sequential interactions of various cytoplasmic proteins with intracellular domains of TNF receptors. Whether signal transducer and activator of transcription-1 (STAT1), which mediates interferon (IFN) signaling, also plays any role in the TNF-mediated activation of NF-kappaB, JNK, and apoptosis has not been established. Here, we report our investigation of the role of STAT1 in TNF signaling using STAT1-deficient U3A and STAT1-stably transfected U3A-PSG91 cells. IFNalpha inhibited the proliferation of STAT1-expressing U3A-PSG91 cells but had no effect on STAT1-negative U3A cells. TNF alone, even up to 10 nM, had no effect on the proliferation of either U3A-PSG91 or U3A cells. Irrespective of STAT1 status, TNF induced cytotoxic effects in the presence of cycloheximide (CHX) in both cell types. Additionally, TNF-induced caspase-3 and caspase-8 activation and TNF-induced PARP cleavage were unaffected by the presence or absence of STAT1. TNF activated NF-kappaB, consisting of p50 and p65, in both U3A and U3A-pSG91 cells in a dose- and time-dependent manner, but the degree and rate of activation were slightly lower in U3A cells, as were IkappaBalpha degradation and NF-kappaB-dependent reporter gene expression. STAT1 was, however, required for IFNalpha-mediated downregulation of TNF-induced NF-kappaB activation. TNF activated JNK in both cell types, but dose and time of exposure required for optimum activation differed slightly. Thus, overall our results indicate that STAT1 plays a minimal role in TNF-mediated cellular responses.
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PMID:Lack of requirement of STAT1 for activation of nuclear factor-kappaB, c-Jun NH2-terminal protein kinase, and apoptosis by tumor necrosis factor-alpha. 1183 5

Tumor necrosis factor-alpha (TNF) is well known for its cytotoxic effect on malignant cells. Its role in cell cycle control is relatively less known. In this study, we found that TNF induced G(1) arrest of TF-1 and MV4-11 cells while simultaneously causing apoptosis. Treatment of the cells with TNF for 48 h caused cell cycle arrest, accompanied by dephosphorylation of pRb and reduction in D-type cyclin expression. The down-regulation of the D-type cyclins resulted in approximately 50-80% decrease of the cyclin-dependent kinase activities. Cells treated with calpain-dependent inhibitor ALLN and apoptosis inhibitor zVAD-FMK suppressed degradation of IkappaBalpha and activation of caspase 3, respectively. However, treatment of cells with these two inhibitors was not able to prevent TNF-induced down-regulation of the D-type cyclins. In contrast, proteasome inhibitor MG-132 and lactacystin blocked both TNF-induced degradation of IkappaBalpha and down-regulation of D-type cyclins. These data suggest that down-regulation of D-type cyclins by TNF may be proteasome-proteolysis dependent. Additional support for this conclusion was obtained from experiments showing an increase of proteasome activity in TNF-treated cells and in vitro degradation of cyclin D3 by 26 S proteasome.
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PMID:Ubiquitin/proteasome-dependent degradation of D-type cyclins is linked to tumor necrosis factor-induced cell cycle arrest. 1186 73

Capsiate and its dihydroderivatives are the major capsaicinoids of sweet pepper. These new capsaicinoids do not activate the vanilloid receptor type 1 (VR1) but they share with capsaicin (CPS)some biological activities mediated in a VR1-independent fashion. In this study we show that CPS and nordihydrocapsiate (CPT) inhibit early and late events in T cell activation, including CD69, CD25 and ICAM-1 cell surface expression, progression to the S phase of the cell cycle and proliferation in response to TCR and CD28 co-engagement. Moreover, both CPS and CPT inhibit NF-kappaB activation in response to different agents including TNF-alpha. CPS itself does not affect the DNA-binding ability of NF-kappaB but it prevents IkappaB kinase activation and IkappaBalpha degradation in a dose-dependent manner, without inhibiting the activation of the mitogen-activated protein kinases, p38, extracellular regulated kinase and c-Jun N-terminal protein kinase. Moreover, intraperitoneal pretreatment with CPT prevented mice from lethal septic shock induced by lipopolysaccharide. In a second model of inflammation CPT pretreatment greatly reduced the extensive damage in the glandular epithelium observed in the bowel of DSS-treated mice. Taken together, these results suggest that CPT and related synthetic analogues target specific pathways involved in inflammation, and hold considerable potential for dietary health benefits as well as for pharmaceutical development.
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PMID:Immunosuppressive activity of capsaicinoids: capsiate derived from sweet peppers inhibits NF-kappaB activation and is a potent antiinflammatory compound in vivo. 1211 59

Cells transformed by the oncogenic small GTPase, Ras, display a radioresistant phenotype in response to ionizing radiation (IR). To determine the mechanisms by which Ras mediates radioresistance in epithelial cells, we assessed the importance of three major survival pathways that can be activated by Ras [phosphatidylinositol 3-kinase (PI3-K)>Akt, nuclear factor kappaB (NF-kappaB), and Raf>mitogen-activated protein kinase/extracellular signal-regulated kinase kinase (MEK)>extracellular signal-regulated kinase] as necessary or sufficient for Ras-mediated radioresistance in matched pairs of RIE-1 rat intestinal epithelial cells expressing oncogenic Ras or empty vector (RIE-Ras and RIE-vector). Inhibiting PI3-K with LY294002 sensitized RIE-1 cells to IR in a dose-dependent manner, indicating that PI3-K is necessary for radioresistance, whereas inhibition of NF-kappaB with the super-repressor IkappaBalpha had little effect on survival. Expression of either the constitutively active catalytic subunit of PI3-K, p110alpha-CAAX, or the Ras effector domain mutant 12V/40C, which retains binding to PI3-K but is impaired in binding to other Ras effectors, was sufficient to confer partial radioresistance. Expression of either a constitutively active form of the serine/threonine kinase Raf-1 or the Ras effector domain mutant 12V/35S, which retains binding to Raf but is impaired in binding to other Ras effectors, was also sufficient to confer partial radioresistance. Surprisingly, however, even complete inhibition of MEK activity by using U0126 resulted in no change in post-IR survival whatsoever. Thus, whereas Raf contributes to Ras-mediated radioresistance, this is accomplished through a MEK-independent pathway. Taken together, these results indicate that multiple pathways, including both PI3-K-dependent and Raf-dependent but MEK-independent signaling, are required for Ras-mediated radioresistance in epithelial cells. Finally, we demonstrate that Ras-mediated radioresistance can be uncoupled from Ras-mediated transformation, in that PI3-K is required for radioresistance but not transformation, whereas MEK and NF-kappaB are required for transformation but not radioresistance in RIE-1 epithelial cells.
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PMID:Ras mediates radioresistance through both phosphatidylinositol 3-kinase-dependent and Raf-dependent but mitogen-activated protein kinase/extracellular signal-regulated kinase kinase-independent signaling pathways. 1212 53

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