EC:3.4.25.1 - FACTA Search

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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)

The conjugation of proteins with ubiquitin plays numerous regulatory roles through both proteasomal-dependent and nonproteasomal-dependent functions. Alterations in ubiquitylation are observed in a wide range of pathologic conditions, including numerous malignancies. For this reason, there is great interest in targeting the ubiquitin-proteasome system in cancer. Several classes of proteasome inhibitors, which block degradation of ubiquitylated proteins, are widely used in research, and one, Bortezomib, is now in clinical use. Despite the well-defined and central role of the ubiquitin-activating enzyme (E1), no cell permeable inhibitors of E1 have been identified. Such inhibitors should, in principle, block all functions of ubiquitylation. We now report 4[4-(5-nitro-furan-2-ylmethylene)-3,5-dioxo-pyrazolidin-1-yl]-benzoic acid ethyl ester (PYR-41) as the first such inhibitor. Unexpectedly, in addition to blocking ubiquitylation, PYR-41 increased total sumoylation in cells. The molecular basis for this is unknown; however, increased sumoylation was also observed in cells harboring temperature-sensitive E1. Functionally, PYR-41 attenuates cytokine-mediated nuclear factor-kappaB activation. This correlates with inhibition of nonproteasomal (Lys-63) ubiquitylation of TRAF6, which is essential to IkappaB kinase activation. PYR-41 also prevents the downstream ubiquitylation and proteasomal degradation of IkappaBalpha. Furthermore, PYR-41 inhibits degradation of p53 and activates the transcriptional activity of this tumor suppressor. Consistent with this, it differentially kills transformed p53-expressing cells. Thus, PYR-41 and related pyrazones provide proof of principle for the capacity to differentially kill transformed cells, suggesting the potential for E1 inhibitors as therapeutics in cancer. These inhibitors can also be valuable tools for studying ubiquitylation.
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PMID:Inhibitors of ubiquitin-activating enzyme (E1), a new class of potential cancer therapeutics. 1790 57

IkappaB kinase 2 (IKK2 or IKKbeta) is a component of the IKK complex that coordinates the cellular response to a diverse set of extracellular stimuli, including cytokines, microbial infection, and stress. In response to an external stimulus, the complex is activated, resulting in the phosphorylation and subsequent proteasome-mediated degradation of IkappaB proteins. This event triggers the nuclear import of the NF-kappaB transcription factor, which activates the transcription of genes that regulate a variety of fundamental biological processes, including immune response, cell survival, and development. Here, we define an essential role for IKK2 in normal mitotic progression and the maintenance of spindle bipolarity. Chemical and genetic perturbation of IKK2 promotes the formation of multipolar spindles and chromosome missegregation. Depletion of IKK2 results in the deregulation of Aurora A protein stability and coincident hyperactivation of a putative Aurora A substrate, the mitotic motor KIF11. These data support a function for IKK2 as an antagonist of Aurora A signaling during mitosis. Additionally, our results indicate a direct role for IKK2 in the maintenance of genome stability and underscore the potential for oncogenic consequences in targeting this kinase for therapeutic intervention.
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PMID:A role for IkappaB kinase 2 in bipolar spindle assembly. 1793 94

LPS stimulates monocytes/macrophages through the activation of signaling events that modulate the production of inflammatory cytokines. Apigenin, a flavonoid abundantly found in fruits and vegetables, exhibits anti-proliferative and anti-inflammatory activities through poorly defined mechanisms. In this study, we demonstrate that apigenin inhibits the production of proinflammatory cytokines IL-1beta, IL-8, and TNF in LPS-stimulated human monocytes and mouse macrophages. The inhibitory effect on proinflammatory cytokine production persists even when apigenin is administered after LPS stimulation. Transient transfection experiments using NF-kappaB reporter constructs indicated that apigenin inhibits the transcriptional activity of NF-kappaB in LPS-stimulated mouse macrophages. The classical proteasome-dependent degradation of the NF-kappaB inhibitor IkappaBalpha was observed in apigenin LPS-stimulated human monocytes. Using EMSA, we found that apigenin does not alter NF-kappaB-DNA binding activity in human monocytes. Instead we show that apigenin, as part of a non-canonical pathway, regulates NF-kappaB activity through hypophosphorylation of Ser536 in the p65 subunit and the inactivation of the IKK complex stimulated by LPS. The decreased phosphorylation on Ser536 observed in LPS-stimulated mouse macrophages treated with apigenin was overcome by the over-expression of IKKbeta. In addition, our studies indicate that apigenin inhibits in vivo LPS-induced TNF and the mortality induced by lethal doses of LPS. Collectively, these findings suggest a molecular mechanism by which apigenin suppresses inflammation and modulates the immune response in vivo.
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PMID:Apigenin blocks lipopolysaccharide-induced lethality in vivo and proinflammatory cytokines expression by inactivating NF-kappaB through the suppression of p65 phosphorylation. 1798 4

The chronic inflammation of arterial walls is associated with the development of atherosclerosis. Earlier we reported that avenanthramide (Avn)s-enriched extract of oats (AvnsO) significantly suppressed interleukin (IL)-1beta-stimulated secretion of proinflammatory cytokines, such as IL-6, IL-8, and MCP-1, by human aortic endothelial cells (HAEC). The main objective of the current study was to determine if the mechanism of inhibitory effect of these polyphenols from oats on the expression of proinflammatory cytokines is mediated through modulation of nuclear factor kappaB (NF-kappaB)-dependent transcription. Confluent HAEC monolayers were treated for 24 h with AvnsO, and synthetically prepared Avn-c suppressed IL-beta-stimulated activation of NF-kappaB in a concentration-dependent manner. CH3-Avn-c, a synthetically prepared methyl ester derivative of Avn-c with a high biological potency, significantly and dose dependently decreased mRNA expression and secretion of IL-6, IL-8, and MCP-1 by HAEC as determined by real-time RT-PCR and ELISA, and it inhibited IL-1beta- and TNFalpha-stimulated NF-kappaB activation as determined by a NF-kappaB DNA binding assay and a NF-kappaB luciferase reporter assay. AvnsO and Avn-c as well as CH3-Avn-c also inhibited the NF-kappaB-dependent reporter gene expression activated by TNFR-associated factor 2 and 6 (TRAF2, TRAF6) and NFkappaB-inducing kinase (NIK). CH3-Avn-c also significantly and dose dependently decreased the phosphorylation level of IkappaB kinase (IKK) and IkappaB, and prevented IkappaB degradation as measured by Western blotting. In addition, CH3-Avn-c markedly increased the overall levels of high mass ubiquitin-conjugated protein levels while it mildly inhibited proteasome activity. These observations suggest that Avns, unique polyphenols from oats, decrease the expression of endothelial proinflammatory cytokines at least in part through inhibition of NF-kappaB activation by inhibiting the phosphorylation of IKK and IkappaB, and by suppressing proteasome activity.
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PMID:Avenanthramides, polyphenols from oats, inhibit IL-1beta-induced NF-kappaB activation in endothelial cells. 1806 32

The inducible transcription factor NF-kappaB regulates divergent signaling pathways including inflammatory response and cancer development. Selective inhibitors for NF-kappaB signaling are potentially useful for treatment of inflammation and cancer. NF-kappaB is canonically activated by preferential disposal of its inhibitory protein; IkappaB, which suppresses the nuclear translocation of NF-kappaB. IkappaBalpha (a major member of IkappaB family proteins) is phosphorylated with an IkappaB kinase (IKK) and subsequently polyubiquitylated by SCF(betaTrCP1) ubiquitin-ligase in the presence of E1 and E2 prior to proteasomal degradation. Here, we describe a novel inhibitor termed GS143, which suppressed IkappaBalpha ubiquitylation, but not IkappaBalpha phosphorylation, MDM2-directed p53 ubiquitylation, and proteasome activity in vitro. GS143 markedly suppressed the destruction of IkappaBalpha stimulated by TNFalpha and a set of downstream responses coupled to NF-kappaB signaling but not those of p53 and beta-catenin in vivo. Our results indicate that GS143 serves as an effective inhibitor of multiple pathways served by NF-kappaB signaling.
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PMID:A novel small-molecule inhibitor of NF-kappaB signaling. 1827 44

We have previously observed that CYP3A4 protein levels are suppressed by inhibition of the proteasome in primary cultured hepatocytes. Because this result is opposite of what would be expected if CYP3A4 were degraded by the proteasome, it seemed likely that there might be another protein susceptible to proteasomal degradation that regulated CYP3A4 expression. In this study, we evaluated whether the nuclear factor-kappaB (NF-kappaB) pathway was involved in that process. Our model system used an adenovirus system to express CYP3A4 protein in HepG2 cells, which are derived from human cancer cells. Similar to results in primary hepatocytes, the inhibition of the proteasome with N-benzoyloxycarbonyl (Z)-Leu-Leu-leucinal (MG132) suppresses CYP3A4 protein levels. We also found that MG132 treatment had a broad affect on the NF-kappaB pathway, including down-regulation of NF-kappaB DNA binding activity and IkappaB kinase (IKK)alpha levels and up-regulation of IKKbeta and inhibitory kappaB levels. Treatment of the HepG2 cells with several structurally distinct NF-kappaB inhibitors also suppressed CYP3A4 protein levels. When the HepG2 cells were treated with cycloheximide, a general inhibitor of protein synthesis, the loss of CYP3A4 protein was accelerated by cotreatment with either proteasome or NF-kappaB inhibitors. These results indicate that NF-kappaB activity regulated CYP3A4 protein stability, and they suggest that the NF-kappaB pathway was responsible for the decrease in CYP3A4 protein levels that resulted from the proteasomal inhibition.
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PMID:The nuclear factor-kappa B pathway regulates cytochrome P450 3A4 protein stability. 1833 98

The role of the proteasome in neurodegenerative diseases is controversial. On the one hand, there is evidence that a dysfunction of proteasome activity can lead to neurodegeneration but there is also data showing that proteasome inhibition can protect nerve cells from a variety of insults. In an attempt to clarify this issue, we studied the effects of four different proteasome inhibitors in a well characterized model of oxidative stress-induced nerve cell death. Consistent with the hypothesis that proteasome inhibition can be neuroprotective, we found that low concentrations of proteasome inhibitors were able to protect nerve cells from oxidative stress-induced death. Surprisingly, the neuroprotective effects of the proteasome inhibitors appeared to be at least partially mediated by the induction of NF-kappaB since protection was significantly reduced in cells expressing a specific NF-kappaB repressor. The activation of NF-kB by proteasome inhibitors was mediated by IkappaB alpha and IKK and was blocked by antioxidants and inhibitors of mitochondrial reactive oxygen species production. These data suggest that low concentrations of proteasome inhibitors induce a moderate level of mitochondrial oxidative stress which results in the activation of neuroprotective pathways.
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PMID:Proteasome inhibitors prevent oxidative stress-induced nerve cell death by a novel mechanism. 1835 6

Dendritic cells (DCs) produce an array of cytokines after detecting various immune adjuvants through pattern recognition receptors (PRRs). PRR signaling leads to activation of transcription factors such as NF-kappaB or interferon regulatory factors (IRFs) but after activation must be attenuated to avoid immunopathology and to maintain tissue homeostasis. IkappaB kinase family members, originally identified as classical NF-kappaB activators, are now found to be broadly and crucially involved in PRR signaling in a member-specific manner. Furthermore, a new mechanism for NF-kappaB downregulation is emerging that involves the degradation of active NF-kappaB by the nuclear ubiquitin-proteasome system. Here we review new aspects of NF-kappaB and IRF regulation chiefly in DCs.
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PMID:Turning NF-kappaB and IRFs on and off in DC. 1853 8

Resveratrol, a phytoalexin present in grapes, has been reported to inhibit multistage mouse skin carcinogenesis. Recent studies showed that topically applied resveratrol significantly inhibited cyclooxygenase-2 (COX-2) expression and activation of nuclear factor-kappaB (NF-kappaB) induced by tumor promoter 12-O-tetradecanoylphorbol-13-acetate (TPA) in mouse epidermis. The aim of the present study was to further explore the effect of resveratrol on TPA-induced signaling pathways in mouse epidermis and to compare with its dimethylether, pterostilbene. Resveratrol and pterostilbene significantly reduced activator protein 1 (AP-1) and NF-kappaB activation. In the case of AP-1, the binding of c-Jun subunit was particularly affected, while only slight effect on c-Fos binding to TPA-responsive element (AP-1 binding consensus sequence) (TRE) site was observed. Both stilbenes inhibited the activation of NF-kappaB by blocking the translocation of p65 to the nucleus and increasing the retention of IkappaBa in the cytosol. The latter might be related to decreased activity of IkappaB kinase and/or proteasome 20S. Reduced activation of transcription factors decreased the expression and activity of COX-2 and inducible nitric oxide synthase (iNOS). In most assays, pterostilbene was either equally or significantly more potent than resveratrol. Pterostilbene might show higher biological activity due to its possible better bioavailability, since substitution of hydroxy with methoxy group increases lipophilicity.
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PMID:Pterostilbene is equally potent as resveratrol in inhibiting 12-O-tetradecanoylphorbol-13-acetate activated NFkappaB, AP-1, COX-2, and iNOS in mouse epidermis. 1855 58

Among the several signalling pathways regulated by ubiquitin and ubiquitin-like proteins, the one activating NF-kappaB (nuclear factor kappaB) is certainly one of the best characterized. The regulation of the activity of this transcription factor by members of the ubiquitin family occurs at various levels, imposing overlapping controls of security of intriguing complexity. The formation of active macromolecular complexes such as the IKK [IkappaB (inhibitory kappaB) kinase] complex is tightly regulated by these post-translational modifications probably due to the fact that many signals converge on this signal's roundabout. An additional, very important level of NF-kappaB control occurs through the partial or total proteolysis of precursor and inhibitor molecules exerted by the ubiquitin-proteasome pathway. Regulation at this level implicates various conjugating and de-conjugating activities for ubiquitin, SUMO (small ubiquitin-related modifier) and NEDD8. Here, we summarize some of these events and underline the importance of the interconnecting ubiquitin and ubiquitin-like conjugating pathways that determine the status of the activity of this critical transcription factor.
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PMID:Innate link between NF-kappaB activity and ubiquitin-like modifiers. 1879 50

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