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 Janus kinase/signal transducer and activator of transcription (JAK/STAT) pathway has evolved to serve highly specialized functions in the regulation of hematopoiesis, cell metabolism, and immune responses. The duration, strength, and specificity of cytokine signaling are controlled by several mechanisms, including the ubiquitin-proteasome pathway, which modulates the turnover of cytokine receptors and activated JAKs. The specificity of the ubiquitin pathway is achieved through various E3 ligase complexes that recognize and interact with distinct target proteins, often in a phosphorylation-dependent manner. Intriguing new information about the ubiquitin pathway came with the identification of an E3 ubiquitin ligase, SLIM, that specifically interacts with activated STAT1 and STAT4 and induces their ubiquitination and degradation. These findings, together with the evidence from paramyxoviruses about the role of ubiquitination as a highly specific STAT inhibition mechanism, highlight the role of E3 ubiquitin ligases as specificity determinants in the regulation of STAT activation, and open the field for investigation of additional E3s that target other STAT proteins.
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PMID:SLIM trims STATs: ubiquitin E3 ligases provide insights for specificity in the regulation of cytokine signaling. 1620 2

Cytokines, hormones or growth factors induce a variety of biological responses including proliferation, differentiation and apoptosis. After binding to their specific cell surface receptors, these stimuli induce the activation of a number of signaling pathways including the activation of JAK (JAnus Kinase) proteins by auto and transphosphorylation. Activated JAK phosphorylate the receptor chains on tyrosines, creating docking sites for cytoplasmic transcription factors named STAT (Signal Transducers and Activators of Transcription). Furthermore, the JAK phosphorylate the STAT which form dimers and migrate to the nucleus where they bind to specific DNA sequences leading to the activation of transcription. The multiplicity of JAK (4 members) and STAT (7 members) and their associations with multiple possible partners allow the formation of various STAT homo and heterodimers and STAT-containing transcriptional complexes. Each of these complexes lead to the specific regulation of gene transcription. Negative regulation of the JAK/STAT signaling pathway is crucial to switch off the cytokine/growth factors' signal. Three families of proteins : the phosphotyrosine phosphatases (SHPs, CD45, PTP1B/TC-PTP), the SOCS proteins (Suppressors Of Cytokine Signaling) and the PIAS (Protein Inhibitor of Activated STAT) are involved in this process. These proteins act at various levels of the JAK/STAT pathway. Thus, tyrosine-phosphatases dephosphorylate activated JAK, STAT or cytokine receptors. PIAS interact with activated STAT and inhibit their DNA binding or their transactivating capacity, probably in relation with their intrinsic SUMO E3-ligase activity. The tyrosine phosphatases and the PIAS are constitutively present in the cell and represent a first level of regulation. The SOCS, which represent a second level of JAK/STAT negative control, are induced by cytokines and exert a negative feed-back loop. Indeed, they interact with activated JAK or with phosphorylated receptors, inhibiting the recruitment of STAT, the activation of the JAK enzymatic activity, or inducing the proteasome-dependant degradation of activated JAK or receptors.
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PMID:[Negative regulation of the JAK/STAT: pathway implication in tumorigenesis]. 1626 68

Hepatitis B virus (HBV) infections play an important role in the development of cirrhosis and hepatocellular carcinoma (HCC). The pathogenesis of HBV-related HCC, however, has not been fully described. Evidence suggests that the HBV X protein (HBx) plays a crucial role in the pathogenesis of HCC. The high occurrence of anti-HBx antibody in the serum of HCC patients indicates that it could be a prognostic marker of HBV infection and HCC. HBx stimulates and influences signal transduction pathways within cells. HBx also binds to such protein targets as p53, proteasome subunits, and UV-damaged DNA binding proteins. It also interacts with the cyclic AMP-responsive element binding protein, ATF-2, NFkappaB, and basal transcription factors. HBx is primarily localized to the cytoplasm, where it interacts with and stimulates protein kinases, including protein kinase C, Janus kinase/STAT, IKK, PI-3-K, stress-activated protein kinase/Jun N-terminal kinase, and protein kinase B/Akt. It is also found in the mitochondrion, where it influences the Bcl-2 family. This review examines the role of HBx in the life cycle of HBV as well as the various signal transduction pathways involved in the pathogenesis of HBV-induced hepatocarcinogenesis.
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PMID:Effects of hepatitis B virus X protein on the development of liver cancer. 1645 63

The ubiquitin-proteasome pathway (UPP) is involved in regulation of multiple cellular processes. Hypoxia-inducible factor 1 alpha (HIF-1 alpha) is a prototypic target of the UPP and, as such, is stabilized under conditions of proteasomal inhibition. Using carbonic anhydrase IX (CAIX) and vascular endothelial growth factor (VEGF) expression as paradigmatic markers of HIF-1 activity, we found that proteasomal inhibitors (PI) abrogated hypoxia-induced CAIX expression in all cell lines tested and VEGF expression in two out of three. Mapping of the inhibitory effect identified the C-terminal activation domain (CAD) of HIF-1 alpha as the primary target of PI. PI specifically inhibited the HIF-1 alpha CAD despite activating the HIF-1 alpha coactivator p300 and another p300 cysteine/histidine-rich domain 1-dependent transcription factor, STAT-2. Coimmunoprecipitation and glutathione S-transferase pull downs indicated that PI does not disrupt interactions between HIF-1 alpha and p300. Mutational analysis failed to confirm involvement of sites of known or putative posttranslational modifications in regulation of HIF-1 alpha CAD function by PI. Our data provide evidence for the counterintuitive hypothesis that inhibition of HIF-1 function could be responsible for at least some of the antitumor effects of proteasomal inhibition. Further studies of the mechanism of the PI-induced attenuation of HIF-1alpha will provide important, potentially novel insight into regulation of HIF-1 activity and possibly identify new targets for HIF-directed therapy.
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PMID:Proteasomal inhibition attenuates transcriptional activity of hypoxia-inducible factor 1 (HIF-1) via specific effect on the HIF-1alpha C-terminal activation domain. 1684 40

Anaplastic lymphoma kinase (ALK)-positive anaplastic large cell lymphoma (ALK+ ALCL) is characterized by constitutive activation of the Janus kinase (JAK)3/signal transducers and activators of transcription 3 (STAT3) signaling pathway. SHP1, a tyrosine phosphatase that negatively regulates JAK/STAT, is frequently absent in ALK+ ALCL owing to gene methylation. To test the hypothesis that loss of SHP1 contributes to JAK3/STAT3 activation in ALK+ ALCL cells, we induced SHP1 expression using 5-aza-2'-deoxycytidine (5-AZA), an inhibitor of DNA methyltransferase, in ALK+ ALCL cell lines, and correlated with changes in the JAK3/STAT3 pathway. 5-AZA gradually restored SHP1 expression in Karpas 299 and SU-DHL-1 cells over 5 days. The initially low level of SHP1 expression did not result in significant changes to the expression or tyrosine phosphorylation of JAK3 and STAT3. However, higher levels of SHP1 seen subsequently correlated with substantial decreases in JAK3 and pJAK3, followed by pSTAT3 (but not STAT3). Importantly, the decrease in JAK3 was abrogated by MG132, a proteasome inhibitor. 5-AZA induced no significant increase in apoptosis but it sensitized ALCL cells to doxorubicin-induced apoptosis. Our findings support the concept that loss of SHP1 contributes to the constitutive activation of JAK3/STAT3 in ALK+ ALCL cells. SHP1 appears to downregulate JAK3 by two mechanisms: tyrosine dephosphorylation and increased degradation via the proteasome pathway.
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PMID:Restoration of shp1 expression by 5-AZA-2'-deoxycytidine is associated with downregulation of JAK3/STAT3 signaling in ALK-positive anaplastic large cell lymphoma. 1687 Dec 83

In systemic inflammation induced by endotoxin (LPS), the macrophage produces the majority of the circulating NO metabolites. However, while the molecular pathways which up-regulate iNOS expression have been extensively studied in the macrophage, little is known of the parallel counterregulatory pathways which repress or inhibit macrophage iNOS expression. Using both in vivo and in vitro murine models of endotoxin (LPS) stimulation, we have previously demonstrated that NO feedback inhibits its own synthesis by increasing transcription of osteopontin (OPN), a potent transrepressor of inducible NO synthase expression. In this current study, using a system of LPS-treated RAW264.7 macrophages, we go on to demonstrate that OPN increases STAT1 ubiquitination and subsequent 26s proteasome-mediated degradation to inhibit STAT1 dependent iNOS promoter activity, transcription, and protein expression. In addition, we identify STAT-interacting LIM protein as the critical STAT ubiquitin E3 ligase critical for STAT1 degradation in this setting. OPN has not been linked previously to STAT1 degradation. This regulation of STAT1 degradation underlies OPN's effect as an inhibitor of iNOS gene transcription. These are novel findings and define OPN as a unique and as yet, poorly characterized, transactivator of STAT1 degradation by the ubiquitin-proteasome system.
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PMID:Osteopontin induces ubiquitin-dependent degradation of STAT1 in RAW264.7 murine macrophages. 1723 38

Protein inhibitor of activated STAT (Pias) and human homologues of seven in absentia (hSiah) proteins both exhibit properties of ubiquitin-family peptides conjugating enzymes. Pias present E3-ligase activity for small ubiquitin-related modifiers (Sumo) covalent attachment to their targets. This post-translational modification is responsible for the activation of different transcription factors such as AP1. HSiah proteins possess ubiquitin-E3-ligase activity that triggers their partners to proteasomal-dependent degradation. The present study identifies Pias as a new hSiah2-interacting protein. We demonstrate that hSiah2 regulates specifically the proteasome-dependent degradation of Pias proteins. On reverse, Pias does not prevent hSiah2 degradation. We provide evidences for hSiah2-dependent degradation of Pias as being a mechanism in the regulation of c-jun N-terminal kinase-activating pathways. This report describes a new interconnection between sumoylation and ubiquitination pathways by regulating the levels of the E3-ligases available for these processes.
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PMID:A crosstalk between hSiah2 and Pias E3-ligases modulates Pias-dependent activation. 1753 77

Elevated Nuclear Factor kappaB (NFkappaB) levels have been reported in multiple myeloma cells derived from patients relapsing after chemotherapy. In the search of an in vitro a model with molecular features similar to relapsing lesions, we focused our attention on an IL-6 autocrine human myeloma cell line (U266), characterized by apoptosis resistance due to upregulation of two constitutive signaling pathways: NFkappaB and STAT-3. NFkappaB activity was inhibited with proteasome inhibitory agents, such as PS-341 and Withaferin A, with an IKK inhibitor (Wedelolactone) or with the adenoviral vector HD IkappaBalphamut-IRES-EGFP encoding a mutant IkappaBalpha protein, resistant to proteasomal degradation. We observed that the NFkappaB intracellular dislocation at the beginning of the treatment affected therapeutic effectiveness of PS-341, Withaferin A and Wedelolactone; interestingly, the adenoviral vector was highly effective in inducing apopotosis even with NFkappaB being predominantly nuclear at the time of infection. We also observed that U266 treated with the Interleukin-6 antagonist Sant7 exhibited reduced STAT3 activity and preferential cytoplasmic NFkappaB location; moreover they became capable of undergoing apoptosis mainly from the G1 phase. Adenoviral vector treated U266 have NFkappaB localized completely in the cytoplasm and also showed downregulation of nuclear phospho STAT-3. Finally, combined targeting of NFkappaB and STAT3 signalling pathways was the most effective treatment in inducing apoptosis. These findings suggest that combined NFkappaB and STAT3 targeting warrants further investigations in other apoptosis resistant MM cell lines as well as in suitable MM animal models.
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PMID:Simultaneous inhibition of the constitutively activated nuclear factor kappaB and of the interleukin-6 pathways is necessary and sufficient to completely overcome apoptosis resistance of human U266 myeloma cells. 1893 95

Increasing evidence indicates that proteasome inhibition occurs in multiple central nervous system (CNS) disorders, including Alzheimer's disease (AD) and Parkinson's disease (PD). Compared with the extensive studies on neurons, little attention is paid on the proteasome inhibition in astrocytes. Here, we demonstrated that lactacystin inhibited proteasome dose-dependently in cultured astrocytes. Simultaneously, lactacystin suppressed the expression of cell cycle proteins in astrocytes and caused the proliferating astrocytes arrested at G1/S checkpoint. Western blots showed that proteasome inhibition led to a decrease in cdk-2, cdk-4, cyclin D1 expression accompanied with an increase in p21waf1/cip1 expression. The effect of chronic low-level proteasome inhibition on astrocytes was consistent with that in acute proteasome inhibition. Furthermore, increased levels of interleukin-6 (IL-6) secretion, STAT-3 and phospho-STAT-3 expression were found, suggesting that proteasome inhibition in astrocytes could stabilize signals of grow arrest through the JAK/STAT signaling cascade.
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PMID:Characterization of proteasome inhibition on astrocytes cell cycle. 1906 50

The past decade has witnessed a dramatic improvement in the therapeutic options in multiple myeloma (MM). Several novel biologically targeted agents are in clinical use and have resulted in improved outcomes. However, the disease remains incurable, underscoring the need for continued efforts towards understanding MM biology, better risk stratification and exploitation of novel therapeutic approaches. Novel agents that target tumor and stromal compartments can be categorized as those that target protein dynamics (e.g., heat shock protein 90 and the ubiquitin-proteasome system), intracellular signaling kinases (e.g., JAK/STAT, PI3k/Akt/mTOR and MAPK pathways), cell cycle molecular machinery (e.g., cyclin-dependent kinase inhibitor and Aurora kinase inhibitors), membrane-bound receptors (e.g., IGF-1, VEGF and CD40), epigenetic modulators (e.g., DNA methyltransferase and histone deacetylase), tumor vasculature and microenvironment (e.g., angiogenesis and integrins) and agents modulating anti-MM immune responses. This article focuses on a series of new therapeutic targets that have shown promising preclinical results and early evidence of anti-MM activity in clinical studies, either alone or in combination with other conventional or novel anti-MM treatments.
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PMID:Novel therapeutic targets for multiple myeloma. 2022 97

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