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:3.4.25.1 (proteasome)
28,817 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Macrophage activation by particulate debris from orthopaedic implants triggers an inflammatory response that ultimately leads to periprosthetic bone resorption and implant failure. TNFalpha has been identified as a critical cytokine involved in the response to debris particles but the mechanisms involved in activation of TNFalpha synthesis are unclear. The current study demonstrates rapid induction or TNFalpha following stimulation with titanium particles in the murine macrophage cell line. ANA-1. Electrophoretic mobility shift assays demonstrated NFkappaB DNA binding activity within 15 min of exposure to titanium particles, and experiments with an NFkappaB luciferase promoter confirmed the induction of NFkappaB mediated transcription by titanium particles. Furthermore, titanium particles induced a 2-fold induction in TNFalpha promoter activity, and mutation of the kappaB2a site, one of the four NFkappaB-binding sites in the TNFalpha promoter, resulted in decreased activation. Since NFtB is a critical regulator of inflammation and is involved in activation of the TNFalpha promoter, additional experiments were performed to determine the mechanism of NFkappaB activation by particles. NFKB activation was found to be dependent upon proteasome activity, since administration of MG 132, a proteasome inhibitor, blocked NFkappaB activation. However, IkappaBalpha is only slightly decreased following Ti treatment, in contrast to marked degradation following stimulation with LPS. Recently, another proteasome-dependent pathway of NFkappaB activation has been described involving degradation of p105. a precursor of p50 that binds to p65. p105 degradation occurred following titanium stimulation. suggesting that this recently described mechanism for NFKB activation is operant in ANA-1 cells following exposure to titanium particles. These findings demonstrate that activation of the NFkappaB signaling pathway is rapidly induced by titanium particles in ANA-1 cells and is associated with p105 degradation. TNFalpha induction appears to be mediated, at least in part, through NFkappaB binding to the kappaB2a site of the TNFalpha promoter.
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PMID:The role of p105 protein in NFkappaB activation in ANA-1 murine macrophages following stimulation with titanium particles. 1216 59

TNF family receptors can lead to the activation of NF-kappaB and this can be a prosurvival signal in some cells. Although activation of NF-kappaB by ligation of Fas (CD95/Apo-1), a member of the TNFR family, has been observed in a few studies, Fas-mediated NF-kappaB activation has not previously been shown to protect cells from apoptosis. We examined the Fas-induced NF-kappaB activation and its antiapoptotic effects in a leukemic eosinophil cell line, AML14.3D10, an AML14 subline resistant to Fas-mediated apoptosis. EMSA and supershift assays showed that agonist anti-Fas (CH11) induced nuclear translocation of NF-kappaB heterodimer p65(RelA)/p50 in these cells in both a time- and dose-dependent fashion. The influence of NF-kappaB on the induction of apoptosis was studied using pharmacological proteasome inhibitors and an inhibitor of IkappaBalpha phosphorylation to block IkappaBalpha dissociation and degradation. These inhibitors at least partially inhibited NF-kappaB activation and augmented CH11-induced cell death. Stable transfection and overexpression of IkappaBalpha in 3D10 cells inhibited CH11-induced NF-kappaB activation and completely abrogated Fas resistance. Increases in caspase-8 and caspase-3 cleavage induced by CH11 and in consequent apoptotic killing were observed in these cells. Furthermore, while Fas-stimulation of resistant control 3D10 cells led to increases in the antiapoptotic proteins cellular inhibitor of apoptosis protein-1 and X-linked inhibitor of apoptosis protein, Fas-induced apoptosis in IkappaBalpha-overexpressing cells led to the down-modulation of both of these proteins, as well as that of the Bcl-2 family protein, Bcl-x(L). These data suggest that the resistance of these leukemic eosinophils to Fas-mediated killing is due to induced NF-kappaB activation.
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PMID:Fas resistance of leukemic eosinophils is due to activation of NF-kappa B by Fas ligation. 1224 43

Many activities of neuronal cells, such as synaptic transmission, inflammation, neuroprotection, and neurotoxicity, are regulated by the activity of the transcription factor nuclear factor-kappaB (NF-kappaB). In resting cells, NF-kappaB activity is present both in the cytoplasm, as an inducible-inactive complex, and in the nucleus as a constitutive form. The activation of its inducible form is related to processing of IkappaB(s), which occurs through the proteasome. To understand whether NF-kappaB is involved in the survival of cerebellar granule cells (CGCs) maintained under conditions of mild depolarization (25 mM KCl), these cells were treated with different proteasome inhibitors. The results presented show that these pharmacological tools reduce CGC survival with changes in nuclear morphology and induction of apoptosis. Furthermore, we demonstrate that PSI-induced apoptosis is reverted by inhibitors of transcription and translation, as well as by specific caspase inhibitors. These issues are also associated with a redistribution of NF-kappaB, in that a reduced amount of nuclear NF-kappaB and an increased p65 cytoplasmic level have been observed. Finally, we propose that, at least in part, p65 metabolism could also be regulated by the ubiquitin-proteasome complex. Altogether, the results presented define an important role for NF-kappaB in maintainig CGC survival.
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PMID:Proteasome inhibitors induce cerebellar granule cell death: inhibition of nuclear factor-kB activation. 1248 1

Upregulation of nuclear factor (NF)-kappaB is found in many forms of cancer. Activation of NF-kappaB in cancer cells by chemotherapy or radiation can blunt the ability of this therapy to induce cell death. Proteasome inhibitors stimulate apoptosis in part via prevention of NF-kappaB activation. We sought to determine whether constitutive NF-kappaB activity is present in human colon cancer. In addition we studied whether alterations of NF-kappaB activity with a proteasome inhibitor would prevent colon cancer cell growth and induce apoptosis. We demonstrated constitutive transcriptional activation of NF-kappaB in SW48 and SW116 colon cancer cells by luciferase and electromobility shift assays. This was confirmed by p65 immunostaining. This activity was further induced in the presence of chemotherapy. In colon cancer specimens constitutive activation of NF-kappaB was observed in the majority of tumors. Treatment with the proteasome inhibitor (MG-132) inhibited growth and also stimulated apoptosis of colon cancer cells. We conclude that inhibition of NF-kappaB activation may be a logical therapy for certain cancers. This can be done via specific approaches on molecules necessary for keeping NF-kappaB inactivated in the cytoplasm. Other potentially useful ways to promote apoptosis in cancer cells include the utilization of proteasome inhibitors. Such inhibitors are currently being evaluated in clinical trials.
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PMID:Antineoplastic therapy in colorectal cancer through proteasome inhibition. 1257 74

The early response gene IEX-1 is involved in the regulation of cellular growth and survival, and its expression is related to stress-, growth- and death-inducing signals. Addressing the role of IEX-1 in the promotion of apoptosis, we investigated the effect of IEX-1 on nuclear factor-kappaB (NF-kappaB) activation. Stably transfected HEK-293 cells conditionally overexpressing IEX-1 exhibit decreased levels of NF-kappaB activity, either basal or TNFalpha induced, as shown by gel-shift and luciferase reporter gene assay. Furthermore, activated p65 accumulated in the nuclei of 293 cells to a lower degree, if IEX-1 expression was increased. This inhibited NF-kappaB activation was preceded by an altered turnover of IkappaBalpha and phospho-IkappaBalpha. In addition, IEX-1 expression also inhibited the activity of the 26S-proteasome, as shown by a fluorometric proteasome assay. Conversely, disruption of IEX-1 expression in 293 cells by stable transfection with specific anti-IEX-1 hammerhead ribozymes increased NF-kappaB activity, and accelerated the degradation of IkappaBalpha. Along with these opposite effects of IEX-1 expression and IEX-1 disruption on NF-kappaB activation, the sensitivity of 293 cells towards various apoptotic stimuli also changed. In contrast to ribozyme-transduced 293 cells that were significantly less sensitive to apoptosis, this sensitivity was enhanced if IEX-1 expression was increased. Our data suggest that IEX-1 - itself an NF-kappaB target gene - inhibits the activation of this transcription factor, and hereby may counteract the antiapoptotic potential of NF-kappaB.
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PMID:The early response gene IEX-1 attenuates NF-kappaB activation in 293 cells, a possible counter-regulatory process leading to enhanced cell death. 1276 4

B lymphocyte stimulator (BLyS), a TNF family protein essential for peripheral B cell development, functions primarily through attenuation of B cell apoptosis. In this study, we show that BLyS activates NF-kappaB through both classical and alternative pathways with distinct kinetics in quiescent mature B cells. It rapidly and transiently enhances the p50/p65 DNA binding activity and induces phosphorylation of IkappaBalpha characteristic of the classical NF-kappaB pathway, albeit maintaining IkappaBalpha at a constant level through ongoing protein synthesis and proteasome-mediated destruction. With delayed kinetics, BLyS promotes the processing of p100 to p52 and sustained formation of p52/RelB complexes via the alternative NF-kappaB pathway. p50 is dispensable for p100 processing. However, it is required to mediate the initial BLyS survival signals and concomitant activation of Bcl-x(L) in quiescent mature B cells ex vivo. Although also a target of BLyS activation, at least one of the A1 genes, A1-a, is dispensable for the BLyS survival function. These results suggest that BLyS mediates its survival signals in metabolically restricted quiescent B cells, at least in part, through coordinated activation of both NF-kappaB pathways and selective downstream antiapoptotic genes.
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PMID:NF-kappa B1 p50 is required for BLyS attenuation of apoptosis but dispensable for processing of NF-kappa B2 p100 to p52 in quiescent mature B cells. 1284 43

Previous studies have implicated acetylases and deacetylases in regulating the transcriptional activity of NF-kappa B. Here, we show that inhibitors of deacetylases such as trichostatin A (TSA) and sodium butyrate (NaBut) potentiated TNF-induced expression of several natural NF-kappa B-driven promoters. This transcriptional synergism observed between TNF and TSA (or NaBut) required intact kappa B sites in all promoters tested and was biologically relevant as demonstrated by RNase protection on two instances of endogenous NF-kappa B-regulated gene transcription. Importantly, TSA prolonged both TNF-induced DNA-binding activity and the presence of NF-kappa B in the nucleus. We showed that the p65 subunit of NF-kappa B was acetylated in vivo. However, this acetylation was weak, suggesting that other mechanisms could be implicated in the potentiated binding and transactivation activities of NF-kappa B after TNF plus TSA versus TNF treatment. Western blot and immunofluorescence confocal microscopy experiments revealed a delay in the cytoplasmic reappearance of the I kappa B alpha inhibitor that correlated temporally with the prolonged intranuclear binding and presence of NF-kappa B. This delay was due neither to a defect in I kappa B alpha mRNA production nor to a nuclear retention of I kappa B alpha but was rather due to a persistent proteasome-mediated degradation of I kappa B alpha. A prolongation of I kappa B kinase activity could explain, at least partially, the delayed I kappa B alpha cytoplasmic reappearance observed in presence of TNF plus TSA.
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PMID:Potentiation of tumor necrosis factor-induced NF-kappa B activation by deacetylase inhibitors is associated with a delayed cytoplasmic reappearance of I kappa B alpha. 1291 41

The oncogenic Epstein-Barr virus (EBV)-encoded latent infection membrane protein 1 (LMP1) constitutively activates the 'canonical' NF-kappaB pathway that involves the phosphorylation and degradation of IkappaBalpha downstream of the IkappaB kinases (IKKs). In this study, we show that LMP1 also promotes the proteasome-mediated proteolysis of p100 NF-kappaB2 resulting in the generation of active p52, which translocates to the nucleus in complex with the p65 and RelB NF-kappaB subunits. LMP1-induced NF-kappaB transactivation is reduced in nf-kb2(-/-) mouse embryo fibroblasts, suggesting that p100 processing contributes to LMP1-mediated NF-kappaB transcriptional effects. This pathway is likely to operate in vivo, as the expression of LMP1 in primary EBV-positive Hodgkin's lymphoma and nasopharyngeal carcinoma biopsies correlates with the nuclear accumulation of p52. Interestingly, while the ability of LMP1 to activate the canonical NF-kappaB pathway is impaired in cells lacking IKKgamma/NEMO, the regulatory subunit of the IKK complex, p100 processing remains unaffected. As a result, nuclear translocation of p52, but not p65, occurs in the absence of IKKgamma. These data point to the existence of a novel signalling pathway that regulates NF-kappaB in LMP1-expressing cells, and may thereby play a role in both oncogenic transformation and the establishment of persistent EBV infection.
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PMID:Epstein-Barr virus-encoded latent infection membrane protein 1 regulates the processing of p100 NF-kappaB2 to p52 via an IKKgamma/NEMO-independent signalling pathway. 1457 16

Glutamate induces gene transcription in numerous physiological and pathological conditions. Among the glutamate-responsive transcription factors, NF-kappaB has been mainly implicated in neuronal survival and death. Recent data also suggest a role of NF-kappaB in neural development and memory formation. In non-neuronal cells, degradation of the inhibitor IkappaBalpha represents a key step in NF-kappaB activation. However, little is known of how glutamate activates NF-kappaB in neurons. To investigate the signalling cascade involved we used primary murine cerebellar granule cells. Glutamate induced a rapid reduction of IkappaBalpha levels and nuclear translocation of the NF-kappaB subunit p65. The glutamate-induced reduction of IkappaBalpha levels was blocked by the N-methyl-d-aspartate inhibitor MK801. Specific inhibitors of the proteasome, caspase 3, and the phosphoinositide 3-kinase had no effect on glutamate-induced IkappaBalpha degradation. However, inhibition of the glutamate-activated Ca2+-dependent protease calpain by calpeptin completely blocked IkappaBalpha degradation and reduced the nuclear translocation of p65. Calpeptin also partially blocked glutamate-induced cell death. Our data indicate that the Ca2+-dependent protease calpain is involved in the NF-kappaB activation in neurons in response to N-methyl-d-aspartate receptor occupancy by glutamate. NF-kappaB activation by calpain may mediate the long-term effects of glutamate on neuron survival or memory formation.
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PMID:Glutamate activates NF-kappaB through calpain in neurons. 1468 3

Tumor necrosis factor alpha (TNFalpha) has been implicated as a mediator of muscle wasting through nuclear factor kappa B (NF-kappaB) -dependent inhibition of myogenic differentiation. The aim of the present study was to identify the regulatory molecule(s) of myogenesis targeted by TNFalpha/NF-kappaB signaling. TNFalpha interfered with cell cycle exit and repressed the accumulation of transcripts encoding muscle-specific genes in differentiating C2C12 myoblasts. Overexpression of a p65 (RelA) mutant lacking the transcriptional activation domain attenuated the TNFalpha-mediated inhibition of muscle-specific gene transcription. The ability of muscle regulatory factor MyoD to induce muscle-specific transcription in 10T1/2 fibroblasts was also disrupted by wild-type p65, demonstrating that NF-kappaB transcriptional activity interferes with the function of MyoD. Inhibition of muscle-specific gene expression by TNFalpha was restored by overexpression of MyoD, whereas endogenous MyoD protein abundance and stability were reduced by TNFalpha through increased proteolysis of MyoD by the ubiquitin proteasome pathway. Last, the inhibitory effects of TNFalpha on myogenic differentiation were demonstrated in a mouse model of skeletal muscle regeneration, in which TNFalpha caused a delay in myoblast cell cycle exit. These results implicate that TNFalpha inhibits myogenic differentiation through destabilizing MyoD protein in a NF-kappaB-dependent manner, which interferes with skeletal muscle regeneration and may contribute to muscle wasting.
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PMID:Tumor necrosis factor-alpha inhibits myogenic differentiation through MyoD protein destabilization. 1476 17


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