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)

Prolonged activation of protein kinase Cs (PKCs) by long-term treatment of cells with phorbol ester tumor promoters down-regulates the expression of many PKCs. To investigate the molecular mechanisms involved in the down-regulation of PKC eta, we expressed the novel PKCs eta and θ and various mutant forms in baby hamster kidney cells. Upon overexpression, constitutively active PKC eta, but not wild type or kinase-dead PKC eta, underwent rapid degradation to generate several lower molecular weight polypeptides. When co-expressed with active kinases, kinase-dead PKC eta with a pseudosubstrate site mutation designed to give an active conformation was down-regulated while the wild type PKC eta was not. These results suggest requirements for kinase activity and an active conformation for down-regulation of PKC eta. Treatment with the proteasome inhibitors N-Ac-Leu-Leu-norleucinal and lactacystin led to accumulation of PKC eta proteolytic products and potentially ubiquitinated forms. While wild type PKC eta localizes mostly to the detergent-soluble fraction of the cell, a significant portion of full-length constitutively active PKC eta and of kinase-dead, active conformation PKC eta were found in the detergent-insoluble fraction. Several proteolytic fragments of constitutively active PKC eta also were found in the detergent insoluble fraction. These full-length and proteolytic fragments of PKC eta in the detergent-insoluble fraction accumulated further in the presence of proteasome inhibitors. These data suggest that active conformation PKC eta accumulates in the detergent-insoluble compartment, is degraded by proteolysis in the presence of kinase activity, and that the cleavage products undergo further degradation via ubiquitin-mediated degradation in the proteasome. Oncogene (2000) 19, 4263 - 4272
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PMID:Activation-dependent degradation of protein kinase C eta. 1098 Jun

NF-kappa B plays a critical role in coordinating the control of gene expression during monocyte/macrophage activation. In this report we describe our investigation of the mechanisms of LPS-induced NF-kappa B activation and IL-12 expression in murine peritoneal suppressor macrophages. Treatment of these macrophages with LPS induced I kappa B alpha degradation and NF-kappa B activation. EMSAs demonstrated that NF-kappa B bound to a cis-acting element located in the murine IL-12 p40 promoter. LPS signal transduction has been shown to involve a variety of signal pathways. The results in this paper indicate that LPS-induced NF-kappa B binding activity was independent of PKC, PKA, ERK, and p38 MAPK, but was regulated by proteasome. Furthermore, Proteasome Inhibitor I abolished the LPS-induced mRNA expression of IL-12 p35 and p40, and SB203580 reduced these mRNA levels, whereas the blockade of PKC, PKA, and ERK had little effect. These data demonstrate that the LPS-induced activation of proteasome. I kappa B. NF-kappa B and p38 MAPK signal pathways regulate the IL-12 expression in murine peritoneal suppressor macrophages.
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PMID:NF-kappa B regulates the LPS-induced expression of interleukin 12 p40 in murine peritoneal macrophages: roles of PKC, PKA, ERK, p38 MAPK, and proteasome. 1100 16

The tumor suppressor phosphatase PTEN regulates cell migration, growth, and survival by dephosphorylating phosphatidylinositol second messengers and signaling phosphoproteins. PTEN possesses a C-terminal noncatalytic regulatory domain that contains multiple putative phosphorylation sites, which could play an important role in the control of its biological activity. The protein kinase CK2 phosphorylated, in a constitutive manner, a cluster of Ser/Thr residues located at the PTEN C terminus. PTEN-phosphorylated defective mutants showed decreased stability in comparison with wild type PTEN and were more rapidly degraded by the proteasome. Inhibition of PTEN phosphorylation by the CK2 inhibitor 5,6-dichloro-1-beta-d-ribofuranosyl-benzimidazole also diminished the PTEN protein content. Our results support the notion that proper phosphorylation of PTEN by CK2 is important for PTEN protein stability to proteasome-mediated degradation.
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PMID:The tumor suppressor PTEN is phosphorylated by the protein kinase CK2 at its C terminus. Implications for PTEN stability to proteasome-mediated degradation. 1103 45

Aurora2 is a cell cycle regulated serine/threonine protein kinase which is overexpressed in many tumor cell lines. We demonstrate that Aurora2 is regulated by phosphorylation in a cell cycle dependent manner. This phosphorylation occurs on a conserved residue, Threonine 288, within the activation loop of the catalytic domain of the kinase and results in a significant increase in the enzymatic activity. Threonine 288 resides within a consensus motif for the cAMP dependent kinase and can be phosphorylated by PKA in vitro. The protein phosphatase 1 is shown to dephosphorylate this site in vitro, and in vivo the phosphorylation of T288 is induced by okadaic acid treatment. Furthermore, we show that the Aurora2 kinase is regulated by proteasome dependent degradation and that Aurora2 phosphorylated on T288 may be targeted for degradation during mitosis. Our experiments suggest that phosphorylation of T288 is important for regulation of the Aurora2 kinase both for its activity and its stability.
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PMID:The mitotic serine/threonine kinase Aurora2/AIK is regulated by phosphorylation and degradation. 1103 8

We report the complete sequence of two cosmids, SPCC895 (38457 bp insert, EMBL Accession No. AL035247) and SPCC1322 (42068 bp insert, EMBL Accession No. AL035259), localized on chromosome III of the Schizosaccharomyces pombe genome. Fourteen Coding DNA sequences (CDSs) were identified in SPCC895 and 17 in SPCC1322. Two known genes were found in each cosmid: map2 and gms1 on SPCC895, encoding the mating type P-factor precursor and an UDP-galactose transporter, respectively, and bub1 and ade6 in SPCC1322, encoding a protein kinase and a phosphoribosylaminoimidazole carboxylase, respectively. The fission yeast K RNA gene has been localized to SPCC895. Three ribosomal proteins have been predicted among these two cosmids. Nine CDSs similar to known proteins were found on SPCC895, and seven on SPCC1322. They include putative genes for an uridylate kinase, a proteasome catalytic component, an ion transporter, a checkpoint protein, a translation initiation protein, a SNARE complex protein, a protein involved in cytoskeletal organization, a spindle pole body-associating protein, pre-mRNA splicing factor RNA helicase, a 3'-5' exonuclease for RNA 3' ss-tail, an UTP-glucose-1-phosphate uridylyltransferase, a leukotriene A(4) hydrolase, a member of the RanBP7-importin beta-Cse1p superfamily, a Ca(++)-calmodulin-dependent serine/threonine protein kinase and a prohibitin antiproliferative protein. One CDS is predicted to be an integral membrane protein. One CDS from SPCC895 is similar to a CDS of unknown function from Saccharomyces cerevisiae and three from SPCC1322 are similar to CDSs of unknown function from Candida albicans, S. cerevisiae and Sz. pombe, respectively. Finally, one CDS of SPCC895 and three of SPCC1322 correspond to orphan genes.
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PMID:Sequence analysis of two cosmids from Schizosaccharomyces pombe chromosome III. 1111 74

RNA polymerase II CTD kinases are key elements in the control of mRNA synthesis. They constitute a family of cyclin-dependent kinases activated by C-type cyclins. Unlike most cyclin-dependent kinase complexes, which are composed of a catalytic and a regulatory subunit, the yeast CTD kinase I complex contains three specific subunits: a kinase subunit (Ctk1), a cyclin subunit (Ctk2), and a third subunit (Ctk3) of unknown function that does not exhibit any similarity to known proteins. Like the Ctk2 cyclin that is regulated at the level of protein turnover, Ctk3 is an unstable protein processed through a ubiquitin-proteasome pathway. Interestingly, Ctk2 and Ctk3 physical interaction is required to protect both subunits from degradation, pointing to a new mechanism for cyclin turnover regulation. We also show that Ctk2 and Ctk3 can each interact independently with the kinase. However, despite the formation of CDK/cyclin complexes in vitro, the Ctk2 cyclin is unable to activate its CDK: both Ctk2 and Ctk3 are required for Ctk1 CTD kinase activation. The different specific features governing CTDK-I regulation probably reflect requirement for the transcriptional response to multiple growth conditions.
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PMID:Activation of the cyclin-dependent kinase CTDK-I requires the heterodimerization of two unstable subunits. 1111 53

The familial cancer syndrome, von Hippel-Lindau (VHL) disease, characterized by a predisposition to renal cell carcinoma and certain other tumor types, is caused by mutational inactivation of the VHL tumor suppressor gene. Loss of VHL gene function is detected also in the vast majority of sporadic renal cell carcinomas. Previous reports have determined a protective role for VHL in response to serum withdrawal and glucose deprivation. In this study, the effect of UV irradiation on VHL-negative and VHL-positive renal carcinoma cells was examined. VHL-negative 786-O renal carcinoma cells underwent apoptosis following UV irradiation. In contrast, reintroduction of wild-type VHL expression protected 786-O cells from UV-mediated cell death. p53 and Bax levels were equivalent in VHL-negative and VHL-positive 786-O cells. Strikingly, cyclin-dependent kinase inhibitors p21 and p27 underwent proteasome-dependent degradation in VHL-negative 786-O cells following UV treatment. However, p21 and p27 protein levels were stable in VHL-positive cells. Also, levels of the anti-apoptotic proteins, Bcl-2 and Bcl-xL were elevated in VHL-positive cells, consistent with the protection from apoptotic stimuli. UV treatment led to increased S phase in VHL-negative, but not VHL-positive cells. Thus, following UV irradiation, diminution of p21 and p27 levels resulted in a hyperproliferative state in VHL-negative cells, leading to apoptosis. These results suggest that loss of VHL function promotes apoptosis and may provide selective pressure toward cells that are able to escape apoptosis, leading to tumorigenesis.
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PMID:The von Hippel-Lindau tumor suppressor gene protects cells from UV-mediated apoptosis. 1112 15

We investigated whether the assembly/disassembly of the 26S proteasome is regulated by phosphorylation/dephosphorylation. The regulatory complex disassembled from the 26S proteasome was capable of phosphorylating the p45/Sug1/Rpt6 subunit, suggesting that the protein kinase is activated upon dissociation of the 26S proteasome or that the phosphorylation site of p45 becomes susceptible to the protein kinase. In addition, the p45-phosphorylated regulatory complex was found to be incorporated into the 26S proteasome. When the 26S proteasome was treated with alkaline phosphatase, it was dissociated into the 20S proteasome and the regulatory complex. Furthermore, the p45 subunit and the C3/alpha2 subunit were cross-linked with DTBP, whereas these subunits were not cross-linked by dephosphorylating the 26S proteasome. These results indicate that the 26S proteasome is disassembled into the constituent subcomplexes by dephosphorylation and that it is assembled by phosphorylation of p45 by a protein kinase, which is tightly associated with the regulatory complex. It was also revealed that the p45 subunit is directly associated with the 20S proteasome alpha-subunit C3 in a phosphorylation-dependent manner.
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PMID:Assembly of the 26S proteasome is regulated by phosphorylation of the p45/Rpt6 ATPase subunit. 1114 24

Invasive Salmonella induces macrophage apoptosis via the activation of caspase-1 by the bacterial protein SipB. Here we show that infection of macrophages with Salmonella causes the activation and degradation of Raf-1, an important intermediate in macrophage proliferation and activation. Raf-1 degradation is SipB- and caspase-1-dependent, and is prevented by proteasome inhibitors. To study the functional significance of Raf-1 in this process, the c-raf-1 gene was inactivated by Cre-loxP-mediated recombination in vivo. Macrophages lacking c-raf-1 are hypersensitive towards pathogen-induced apoptosis. Surprisingly, activation of the antiapoptotic mitogen-activated protein kinase kinase (MEK)/extracellular signal-regulated kinase (ERK) and nuclear factor kappaB pathways is normal in Raf-1-deficient macrophages, and mitochondrial fragility is not increased. Instead, pathogen-mediated activation of caspase-1 is enhanced selectively, implying that Raf-1 antagonizes stimulus-induced caspase-1 activation and apoptosis.
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PMID:Protective role of Raf-1 in Salmonella-induced macrophage apoptosis. 1115 55

Cell-cycle progression in all eukaryotes is driven by cyclin-dependent kinases (CDKs) and their cyclin partners. In vertebrates, the proper and timely duplication of the genome during S-phase relies on the coordinated activities of positive regulators such as CDK-cyclins and E2F, and negative regulators such as CDK inhibitors of the Cip/Kip and INK4 families. Recent and ongoing work indicates that many important regulators of G1- and S-phases are targeted for ubiquitination and subsequent degradation by the 26S proteasome. The proteolysis of key proteins during G1- and S-phases appears to be central for proper custodial regulation of DNA replication and the maintenance of cellular homeostasis in general. This review highlights the current literature regarding ubiquitin-mediated proteolysis of G1- and S-phase regulators and the control of events during the initiation and completion of DNA replication in vertebrates.
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PMID:Ubiquitin-mediated proteolysis of vertebrate G1- and S-phase regulators. 1124 44

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