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)

Heat-shock protein 90 (Hsp 90) has been implicated in both protection against oxidative inactivation and inhibition of the multicatalytic proteinase (MCP, also known as 20 S proteasome). We report here that the protective and inhibitory effects of Hsp 90 depend on the activation state of the proteasome. Hsp 90 (and also alpha-crystallin) inhibits the N-Cbz-Leu-Leu-Leu-MCA-hydrolysing activity (Cbz=benzyloxycarbonyl; MCA=7-amido-4-methylcoumarin) when the rat liver MCP is in its latent form, but no inhibitory effects are observed when the MCP is in its active form. Metal-catalysed oxidation of the active MCP inactivates the Ala-Ala-Phe-MCA-hydrolysing (chymotrypsin-like), N-Boc-Leu-Ser-Thr-Arg-MCA-hydrolysing (trypsin-like; Boc=t-butyloxycarbonyl), N-Cbz-Leu-Leu-Glu-beta-naphthylamine-hydrolysing (peptidylglutamyl-peptide hydrolase) and N-Cbz-Leu-Leu-Leu-MCA-hydrolysing activities, whereas these activities are actually increased when the MCP is in its latent form. Hsp 90 protects against oxidative inactivation of the trypsin-like and N-Cbz-Leu-Leu-Leu-MCA-hydrolysing activities of the MCP active form, and alpha-crystallin protects the trypsin-like activity. The specificity of the Hsp 90-mediated protection was assessed by a quantitative analysis of the two-dimensional electrophoretic pattern of MCP subunits before and after oxidation of the MCP, in the presence or absence of Hsp 90. Treatment of the FAO hepatoma cell line with iron and ascorbate was found to inactivate the MCP. Hsp 90 overexpression obtained by challenging the cells with iron was associated with a decreased susceptibility to oxidative inactivation of the MCP trypsin-like activity. Depletion of Hsp 90 by using antisense oligonucleotides resulted in an increased susceptibility to oxidative inactivation of the MCP trypsin-like activity, providing evidence for the physiological relevance of Hsp 90-mediated protection of the MCP.
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PMID:Protection from oxidative inactivation of the 20S proteasome by heat-shock protein 90. 965 82

Deoxycorticosterone acetate (DOCA)-salt-treated rats developed marked hypertension after 4 weeks with an increase in aortic endothelin-1. Treatment of DOCA-salt hypertensive rats with a proteasome inhibitor, N-benzyloxycarbonyl-Ile-Glu(O-t-Bu)-Ala-leucinal, significantly reduced the elevation in systolic blood pressure and the effect was accompanied by a decrease in aortic endothelin- content. Thus, a proteasome-dependent proteolytic pathway appears to play an important role in the enhanced production of endothelin-1 in blood vessels and the consequent increase in blood pressure in this model of hypertension.
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PMID:A proteasome inhibitor lessens the increased aortic endothelin-1 content in deoxycorticosterone acetate-salt hypertensive rats. 968 28

To search for a possible role for vascular proteasome in hypertension, we examined changes in proteasome level in aorta of deoxycorticosterone acetate (DOCA)-salt hypertensive rats and evaluated the antihypertensive effect of a proteasome inhibitor, N-benzyloxycarbonyl-Ile-Glu(O-t-Bu)-Ala-leucinal (PSI). Two weeks after the start of DOCA-salt treatment, the rats, with systolic blood pressure being 154 +/- 5 mmHg, were randomly divided into two groups and were given PSI or its vehicle for 2 weeks. Vehicle-treated DOCA-salt rats developed marked hypertension after 4 weeks (198 +/- 9 mmHg), with increases in aortic proteasome activity and content. The systolic blood pressure was positively correlated with both the content and activity of aortic proteasome. The administration of PSI to DOCA-salt hypertensive rats suppressed the elevation of systolic blood pressure (144 +/- 4 mmHg), accompanied by decreases in aortic proteasome activity and content. These results suggest that proteasome production in vascular tissues is increased in DOCA-salt hypertensive rats, and that PSI exhibits antihypertensive effect in this experimental hypertensive model. Thus, the findings indicate the pathophysiological importance of increased vascular proteasome in the development of DOCA-salt hypertension.
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PMID:Antihypertensive effect of a proteasome inhibitor in DOCA-salt hypertensive rats. 969 41

The Epstein-Barr virus nuclear antigen 1 contains a glycine-alanine repeat that inhibits in cis MHC class I-restricted presentation. We report here that insertion of a minimal glycine-alanine repeat motif in different positions of I kappaB alpha protects this NF-kappaB inhibitor from signal-induced degradation dependent on ubiquitin-proteasome, and decreases its basal turnover in vivo resulting in constitutive dominant-negative mutants. The chimeras are phosphorylated and ubiquitinated in response to tumor necrosis factor alpha, but are then released from NF-kappaB and fail to associate with the proteasome. This explains how functionally competent I kappaB alpha is protected from proteasomal disruption and identifies the glycine-alanine repeat as a new regulator of proteolysis.
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PMID:A minimal glycine-alanine repeat prevents the interaction of ubiquitinated I kappaB alpha with the proteasome: a new mechanism for selective inhibition of proteolysis. 970 Dec 31

Proteasomes are processing enzymes capable of generating major histocompatibility complex (MHC) class I ligands, but the mechanism of how they excise ligands without destroying them is largely unknown. Previously, we reported that most products of ornithine decarboxylase degraded in vitro by the 26 S ATP-dependent proteasome, which contained one or two Pro residues (Tokunaga, F., Goto, T., Koide, T., Murakami, Y., Hayashi, S., Tamura, T., Tanaka, K., and Ichihara, A. (1994) J. Biol. Chem. 269,17382-17385), which implied that the Pro residue has a role in the escape from random cleavage by proteasomes. Here, we examine the role of the Pro residue in producing MHC class I ligands in vitro. Proteasomes generated two cytotoxic T lymphocyte-epitopic precursor peptides, SIIPGLPLSL and DMYPHFMPTNL, from the 29-mer and 25-mer peptides harboring these sequences, which are derived from the c-akt proto-oncogene and the pp89 protein of mouse cytomagalovirus, respectively. Replacement of the first or second Pro residue within these epitopes by Ala resulted in a marked reduction of this epitope-derived production or their random cleavage by proteasomes, irrespective of the presence of PA28, which greatly accelerates the generation of unmodified ligands. Moreover, replacement of a single amino acid residue other than Pro in both epitopic and flanking regions by Ala or Leu had no or little appreciable effect on the SIIPGLPLSL or its derivative production. Thus, Pro residue(s) within these epitopic sequences presumably contributes to efficient production of MHC class I ligands through prevention of their random cleavage by proteasomes.
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PMID:Contribution of proline residue for efficient production of MHC class I ligands by proteasomes. 972 32

Nuclear factor kappaB (NFkappaB) is a ubiquitously expressed transcription factor that is regulated by the cytoplasmic inhibitor protein IkappaBalpha. Biological agents such as tumor necrosis factor alpha (TNFalpha), which activate NFkappaB, result in the rapid degradation of IkappaBalpha. Adenoviral-mediated gene transfer of Bcl-2 prevents apoptosis of neonatal ventricular myocytes induced by TNFalpha. In view of the growing evidence that NFkappaB may play an important role in regulating apoptosis, we determined whether TNFalpha and Bcl-2 could modulate the activity of NFkappaB in ventricular myocytes. Stimulation of myocytes with TNFalpha resulted in a 2.1-fold increase (p < 0.001) in NFkappaB-dependent gene transcription and nuclear DNA binding. Similarly, a 1.9-fold increase (p < 0.0002) in NFkappaB-dependent gene transcription was observed in myocytes expressing Bcl-2. Nuclear DNA binding activity of NFkappaB was significantly increased in myocytes expressing Bcl-2, with a concomitant reduction in IkappaBalpha protein level. The Bcl-2-mediated loss of IkappaBalpha could be prevented by the proteasome inhibitor lactacystin, consistent with the notion that the targeted degradation of IkappaBalpha consequent to overexpression of Bcl-2 utilizes the ubiquitin-proteasome pathway. This was further tested in human 293 cells in which the N-terminal region of IkappaBalpha was identified to be an important regulatory site for Bcl-2. Deletion of this region or a serine to alanine substitution mutant at amino acids 32 and 36, which are defective for both phosphorylation and degradation, were more resistant than wild type IkappaBalpha to the inhibitory effects of Bcl-2. To our knowledge, this provides the first evidence for the regulation of IkappaBalpha by Bcl-2 and suggests a link between Bcl-2 and the NFkappaB signaling pathway in the suppression of apoptosis.
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PMID:Bcl-2 activates the transcription factor NFkappaB through the degradation of the cytoplasmic inhibitor IkappaBalpha. 972 9

NF-kappaB corresponds to an inducible eukaryotic transcription factor complex that is negatively regulated in resting cells by its physical assembly with a family of cytoplasmic ankyrin-rich inhibitors termed IkappaB. Stimulation of cells with various proinflammatory cytokines, including tumor necrosis factor alpha (TNF-alpha), induces nuclear NF-kappaB expression. TNF-alpha signaling involves the recruitment of at least three proteins (TRADD, RIP, and TRAF2) to the type 1 TNF-alpha receptor tail, leading to the sequential activation of the downstream NF-kappaB-inducing kinase (NIK) and IkappaB-specific kinases (IKKalpha and IKKbeta). When activated, IKKalpha and IKKbeta directly phosphorylate the two N-terminal regulatory serines within IkappaB alpha, triggering ubiquitination and rapid degradation of this inhibitor in the 26S proteasome. This process liberates the NF-kappaB complex, allowing it to translocate to the nucleus. In studies of NIK, we found that Thr-559 located within the activation loop of its kinase domain regulates NIK action. Alanine substitution of Thr-559 but not other serine or threonine residues within the activation loop abolishes its activity and its ability to phosphorylate and activate IKKalpha. Such a NIK-T559A mutant also dominantly interferes with TNF-alpha induction of NF-kappaB. We also found that ectopically expressed NIK both spontaneously forms oligomers and displays a high level of constitutive activity. Analysis of a series of NIK deletion mutants indicates that multiple subregions of the kinase participate in the formation of these NIK-NIK oligomers. NIK also physically assembles with downstream IKKalpha; however, this interaction is mediated through a discrete C-terminal domain within NIK located between amino acids 735 and 947. When expressed alone, this C-terminal NIK fragment functions as a potent inhibitor of TNF-alpha-mediated induction of NF-kappaB and alone is sufficient to disrupt the physical association of NIK and IKKalpha. Together, these findings provide new insights into the molecular basis for TNF-alpha signaling, suggesting an important role for heterotypic and possibly homotypic interactions of NIK in this response.
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PMID:Molecular determinants of NF-kappaB-inducing kinase action. 974 7

Palmitoylation of cysteine residue 34 within the 67-amino acid cytoplasmic domain of the 46-kDa mannose 6-phosphate receptor (MPR 46), which may be anchored to the lipid bilayer, prevents the receptor from entering lysosomes (Schweizer, A., Kornfeld, S., and Rohrer, J. (1996) J. Cell Biol. 132, 577-584). In the present study, we examined the importance of the spacing between the transmembrane domain and the palmitoylation anchor site in the cytoplasmic domain for stability and trafficking of MPR 46. MPR 46 mutants with deletions of residues 20-23 and 24-29 expressed in baby hamster kidney cells were rapidly degraded with half-lives of less than 10 h. The replacement of residues 24-29 by alanine resulted in prolongation of receptor stability (t(1)/(2) approximately 20 h). Whereas mutant MPR 46 could not be detected in lysosomal fractions and inhibitors of lysosomal proteases failed to prevent degradation, treatment with the proteasome inhibitor lactacystin resulted in increased stability of mutant MPR 46. Pulse-chase experiments at low temperature and the acquirement of endoglucosaminidase H-resistant oligosaccharides indicate that the majority of mutant MPR 46 is degraded after leaving the Golgi compartment. Altered trafficking of mutant MPR 46 may be the result of decreased palmitoylation reaching 40% of wild type receptors. The data suggest that the spacing between the transmembrane domain and the proposed palmitoylation anchor site in the cytoplasmic domain of MPR 46 is important for a post Golgi sorting step preventing receptor degradation by multiple proteolytic systems including the proteasome.
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PMID:Stabilization of mutant 46-kDa mannose 6-phosphate receptors by proteasomal inhibitor lactacystin. 983 96

The NEDD8/Rub1 class of ubiquitin-like proteins has been implicated in progression of the cell cycle from G1 into S phase. These molecules undergo a metabolism that parallels that of ubiquitin and involves specific interactions with many different proteins. We report here the crystal structure of recombinant human NEDD8 refined at 1.6-A resolution to an R factor of 21.9%. As expected from the high sequence similarity (57% identical), the NEDD8 structure closely resembles that reported previously for ubiquitin. We also show that recombinant human NEDD8 protein is activated, albeit inefficiently, by the ubiquitin-activating (E1) enzyme and that NEDD8 can be transferred from E1 to the ubiquitin conjugating enzyme E2-25K. E2-25K adds NEDD8 to a polyubiquitin chain with an efficiency similar to that of ubiquitin. A chimeric tetramer composed of three ubiquitins and one histidine-tagged NEDD8 binds to the 26 S proteasome with an affinity similar to that of tetraubiquitin. Seven residues that differ from the corresponding residues in ubiquitin, but are conserved between NEDD8 orthologs, are candidates for mediating interactions with NEDD8-specific partners. One such residue, Ala-72 (Arg in ubiquitin), is shown to perform a key role in selecting against reaction with the ubiquitin E1 enzyme, thereby acting to prevent the inappropriate diversion of NEDD8 into ubiquitin-specific pathways.
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PMID:Crystal structure of the human ubiquitin-like protein NEDD8 and interactions with ubiquitin pathway enzymes. 985 30

Peptide segments of multiple glycine and alanine residues prevent the proteolytic degradation of ubiquitinated proteins by the proteasome. The structure of a Gly/Ala-rich insert in IkappaB alpha was probed by nuclear magnetic resonance (NMR) spectroscopy, comparing IkappaB alpha samples with and without Gly/Ala-rich insert. Narrow 1H-NMR resonances at chemical shifts indicative of random coil conformations were observed in the difference spectrum. circular dichroism (CD) measurements further confirm that the mechanism of protection against proteolytic degradation is not based on structural transition or stabilization caused by the Gly/Ala-rich segment. In addition, most of the N- and C-terminal residues outside the ankyrin repeats in wild-type IkappaB alpha were found to be flexibly disordered.
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PMID:Random coil conformation of a Gly/Ala-rich insert in IkappaB alpha excludes structural stabilization as the mechanism for protection against proteasomal degradation. 987 4

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