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 repetitive elements of medaka (Oryzias latipes) are poorly characterized in spite of recent rapid progress in the medaka genome analysis. Here we report the characterization of the repetitive elements in the major histocompatibility complex (MHC) class I region, which spans about 400 kb and is one of the best characterized regions of the medaka genome. Microsatellite, low complexity regions, transposable elements, and other repeats occupied 0.68, 0.98, 7.0 and 2.9%, respectively, of the MHC class I region. Eleven transposable elements, three LTR-type, six LINE-type and two DNA-type, including several novel ones, were identified. Genomic Southern hybridization analysis indicated that these LINE-type and DNA-type elements have many copies in the medaka genome, whereas the LTR-type elements have only several copies. The comparison of the medaka MHC class I region with those of zebrafish and fugu shows the presence of three medaka lineage-specific tandem duplications of the PSMB (proteasome beta-type subunit) 8 and class Ia genes. Since eight of the 11 transposable elements were located in this region, these elements may have played a role in the medaka-specific DNA rearrangement.
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PMID:Repetitive elements in the major histocompatibility complex (MHC) class I region of a teleost, medaka: identification of novel transposable elements. 1521 Jan 84

The human topoisomerase I- and p53-binding protein topors contains a highly conserved, N-terminal C3HC4-type RING domain that is homologous to the RING domains of known E3 ubiquitin ligases. We demonstrate that topors functions in vitro as a RING-dependent E3 ubiquitin ligase with the E2 enzymes UbcH5a, UbcH5c, and UbcH6 but not with UbcH7, CDC34, or UbcH2b. Additional studies indicate that a conserved tryptophan within the topors RING domain is required for ubiquitination activity. Furthermore, both in vitro and cellular studies implicate p53 as a ubiquitination substrate for topors. Similar to MDM2, overexpression of topors results in a proteasome-dependent decrease in p53 protein expression in a human osteosarcoma cell line. These results are similar to the recent finding that a Drosophila topors orthologue ubiquitinates the Hairy transcriptional repressor and suggest that topors functions as a ubiquitin ligase for multiple transcription factors.
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PMID:Topors functions as an E3 ubiquitin ligase with specific E2 enzymes and ubiquitinates p53. 1524 80

The repression of alkaline protease synthesis from alkaliphilic actinomycete was studied by using glucose, peptone, yeast extract, KH2PO4 and amino acids; tyrosine, tryptophan, lysine, and arginine. There was a critical limit of stimulation of enzyme production by these components. Crude components such as molasses, wheat flour, and wheat bran were found to be effective for growth and enzyme production. The high level of enzyme production using agro-industrial by-products is commercially significant due to cheap nature of these sources. The findings are quite attractive, as only few actinomycetes, particularly alkaliphilic ones, have so far been explored for their enzymatic potential and regulation of enzyme synthesis.
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PMID:Production of alkaline protease from an alkaliphilic actinomycete. 1620 32

The primate TRIM5alpha proteins have recently been defined as cellular restriction factors, preventing primate infection by retroviruses from different species. For instance, rhesus TRIM5alpha (rhTRIM5alpha) restricts infection by HIV-1. Virtually all TRIM5alpha proteins block the early replication of retroviruses by preventing the accumulation of reverse transcription products, but the underlying mechanism remains unclear. In this article, we find that disrupting proteasome function alters rhTRIM5alpha localization and allows the normal generation of HIV-1 late reverse transcription products, even though HIV-1 infection and the generation of nuclear 1-LTR and 2-LTR viral cDNA forms remain impaired. This finding suggests rhTRIM5alpha restricts HIV infection in two distinct phases: (i) altering the normal passage of the reverse-transcribing viral genome to the nucleus and (ii) targeting the reverse transcription complex to be disrupted by the proteasome. Because proteasome inhibitor blocks the second phase, accumulation of a nonfunctional viral DNA genome can be readily observed. Defining each phase may reveal HIV-1 targets for future antiviral therapy in which dual blockade may be equally as effective as naturally occurring rhTRIM5alpha protein in preventing HIV-1 infection in vivo.
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PMID:Proteasome inhibitors uncouple rhesus TRIM5alpha restriction of HIV-1 reverse transcription and infection. 1664 64

The expression of human complement regulatory proteins (CRP) and H-transferase (HT) in porcine cells is one of the strategies for suppression of hyperacute rejection (HAR) of xenotransplants in human recipients. In this study, we investigated the inhibitory effect of combined expression of human complement regulators and HT on human serum-mediated cytolysis in porcine embryonic fibroblasts. For the combinated expression of human CRPs in transformed pig cells, cDNAs of human DAF, MCP, and CD59 were cloned into the same insertional plasmid under the control of pCMV IE and LTR. The double combination of CRPs, hDAF-hMCP, and hMCP-hCD59 survived over 50% in the presence of 50% human serum, compared to the control. Moreover, the cell viability was increased more than 65% and 80% in the combination of human DAF-CD59 and DAF-MCP-CD59, respectively. In addition, the combination of HT gene to hDAF-hCD59 vector increased the viability close to 80%, similar to the triple combination of CRPs. These observations suggest that the combined expression of human CRPs and HT in the same insertional vector may be more effective in protecting porcine cells from human complement-mediated cytolysis.
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PMID:Effects of combined expression of human complement regulatory proteins and H-transferase on the inhibition of complement-mediated cytolysis in porcine embryonic fibroblasts. 1679 69

F-Box proteins (FBPs) are variable adaptor proteins that earmark protein substrates for ubiquination and destruction by the proteasome. Through their N-terminal F-box motif, they couple specific protein substrates to a catalytic machinery known as SCF (Skp-1/Cul1/F-Box) E3-ubiquitin ligase. Typical FBPs bind the specific substrates in a phosphorylation dependent manner via their C-termini using either leucine rich repeats (LRR) or tryptophan-aspartic acid (WD40) domains for substrate recognition. By using a gene trap strategy that selects for genes induced during programmed cell death, we have isolated the mouse homolog of the hypothetical human F-Box protein 33 (FBX33). Here we identify FBX33 as a component of an SCF E3-ubiquitin ligase that targets the multifunctional regulator Y-box binding protein 1 (YB-1)/dbpB/p50 for polyubiquitination and destruction by the proteasome. By targeting YB-1 for proteasomal degradation, FBX33 negatively interferes with YB-1 mediated functions. In contrast to typical FBPs, FBX33 has no C-terminal LRR or WD40 domains and associates with YB-1 via its N-terminus. The present study confirms the existence of a formerly hypothetical F-Box protein in living cells and describes one of its substrates.
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PMID:Proteasomal degradation of the multifunctional regulator YB-1 is mediated by an F-Box protein induced during programmed cell death. 1679 41

Indoleamine 2,3-dioxygenase (IDO) is a heme-containing enzyme, which catalyzes the initial and rate-determining step of L-tryptophan (L-Trp) metabolism via the kynurenine pathway in nonhepatic tissues. Similar to inducible nitric oxide synthase (iNOS), IDO is induced by interferon-gamma and lipopolysaccharide in the inflammatory response. In vivo studies indicate that the nitric oxide (NO) produced by iNOS inhibits IDO activity by directly interacting with it and by promoting its degradation through the proteasome pathway. In this work, the molecular mechanisms underlying the interactions between NO and human recombinant IDO (hIDO) were systematically studied with optical absorption and resonance Raman spectroscopies. Resonance Raman data show that the heme prosthetic group in the NO-bound hIDO is situated in a unique protein environment and adopts an out-of-plane deformed geometry that is sensitive to L-Trp binding. Under mildly acidic conditions, the proximal heme iron-His bond is prone to rupture, resulting in a five-coordinate (5C) NO-bound species. The bond breakage reaction induces significant conformational changes in the protein matrix, which may account for the NO-induced inactivation of hIDO and its enhanced proteasome-linked degradation in vivo. Moreover, it was found that the NO-induced bond breakage reaction occurs more rapidly in the ferrous protein than in the ferric protein and is fully inhibited by L-Trp binding. The spectroscopic data presented here not only provide the first glimpse of the possible regulatory mechanism of hIDO by NO in the cell at the molecular level, but they also suggest that the NO-dependent regulation can be modulated by cellular factors, such as the NO abundance, pH, redox environment, and L-Trp availability.
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PMID:Interactions between nitric oxide and indoleamine 2,3-dioxygenase. 1683 26

The primate TRIM5 proteins constitute a class of restriction factors that prevent host cell infection by retroviruses from different species. The TRIM5 proteins act early after virion entry and prevent viral reverse transcription products from accumulating. We recently found that proteasome inhibitors altered the rhesus monkey TRIM5alpha restriction of human immunodeficiency virus type 1 (HIV-1), allowing reverse transcription products to accumulate even though viral infection remained blocked. To assess whether sensitivity to proteasome inhibitors was a common feature of primate TRIM5 proteins, we conducted a similar analysis of restriction mediated by owl monkey TRIM-cyclophilin A (CypA) or human TRIM5alpha. Similar to rhesus monkey TRIM5alpha restriction, proteasome inhibition prevented owl monkey TRIM-CypA restriction of HIV-1 reverse transcription, even though HIV-1 infection and the output of 2-LTR circles remained impaired. Likewise, proteasome inhibition alleviated human TRIM5alpha restriction of N-tropic murine leukemia virus reverse transcription. Finally, HIV-1 reverse transcription products escaping rhesus TRIM5alpha restriction by proteasome inhibition were fully competent for integration in vitro, demonstrating that TRIM5alpha likely prevents the viral cDNA from accessing chromosomal target DNA. Collectively, these data indicate that the diverse TRIM5 proteins inhibit retroviral infection in multiple ways and that inhibition of reverse transcription products is not necessary for TRIM5-mediated restriction of retroviral infection.
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PMID:Proteasome inhibition reveals that a functional preintegration complex intermediate can be generated during restriction by diverse TRIM5 proteins. 1697 79

The mitochondria have several important functions in the cell. A mitochondrial dysfunction causes an abatement in ATP production, oxidative damage and the induction of apoptosis, all of which are involved in the pathogenesis of numerous disorders. This review focuses on mitochondrial dysfunctions and discusses their consequences and potential roles in the pathomechanism of neurodegenerative disorders. Other pathogenetic factors are also briefly surveyed. The second part of the review deals with the kynurenine metabolic pathway, its alterations and their potential association with cellular energy impairment in certain neurodegenerative diseases. During energy production, most of the O(2) consumed by the mitochondria is reduced fully to water, but 1-2% of the O(2) is reduced incompletely to give the superoxide anion (O(2)(-)). If the function of one or more respiratory chain complexes is impaired for any reason, the enhanced production of free radicals further worsens the mitochondrial function by causing oxidative damage to macromolecules, and by opening the mitochondrial permeability transition pores thereby inducing apoptosis. These high-conductance pores offer a pathway which can open in response to certain stimuli, leading to the induction of the cells' own suicide program. This program plays an essential role in regulating growth and development, in the differentiation of immune cells, and in the elimination of abnormal cells from the organism. Both failure and exaggeration of apoptosis in a human body can lead to disease. The increasing amount of superoxide anions can react with nitric oxide to yield the highly toxic peroxynitrite anion, which can destroy cellular macromolecules. The roles of oxidative, nitrative and nitrosative damage are discussed. Senescence is accompanied by a higher degree of reactive oxygen species production, and by diminished functions of the endoplasmic reticulum and the proteasome system, which are responsible for maintenance of the normal protein homeostasis of the cell. In the event of a dysfunction of the endoplasmic reticulum, unfolded proteins aggregate in it, forming potentially toxic deposits which tend to be resistant to degradation. Cells possess adaptive mechanisms with which to avoid the accumulation of incorrectly folded proteins. These involve molecular chaperones that fold proteins correctly, and the ubiquitin proteasome system which degrades misfolded, unwanted proteins. Both the endoplasmic reticulum and the ubiquitin proteasome system fulfill cellular protein quality control functions. The kynurenine system: Tryptophan is metabolized via several pathways, the main one being the kynurenine pathway. A central compound of the pathway is kynurenine (KYN), which can be metabolized in two separate ways: one branch furnishing kynurenic acid, and the other 3-hydroxykynurenine and quinolinic acid, the precursors of NAD. An important feature of kynurenic acid is the fact that it is one of the few known endogenous excitatory amino acid receptor blockers with a broad spectrum of antagonistic properties in supraphysiological concentrations. One of its recently confirmed sites of action is the alpha7-nicotinic acetylcholine receptor and interestingly, a more recently identified one is a higher affinity positive modulatory binding site at the AMPA receptor. Kynurenic acid has proven to be neuroprotective in several experimental settings. On the other hand, quinolinic acid is a specific agonist at the N-methyl-d-aspartate receptors, and a potent neurotoxin with an additional and marked free radical-producing property. There are a number of neurodegenerative disorders whose pathogenesis has been demonstrated to involve multiple imbalances of the kynurenine pathway metabolism. These changes may disturb normal brain function and can add to the pathomechanisms of the diseases. In certain disorders, there is a quinolinic acid overproduction, while in others the alterations in brain kynurenic acid levels are more pronounced. A more precise knowledge of these alterations yields a basis for getting better therapeutic possibilities. The last part of the review discusses metabolic disturbances and changes in the kynurenine metabolic pathway in Parkinson's, Alzheimer's and Huntington's diseases.
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PMID:Mitochondria, metabolic disturbances, oxidative stress and the kynurenine system, with focus on neurodegenerative disorders. 1746 70

The proteasome of Mycobacterium tuberculosis (Mtb) is a validated and drug-treatable target for therapeutics. To lay ground-work for developing peptide-based inhibitors with a useful degree of selectivity for the Mtb proteasome over those of the host, we used a library of 5,920 N-acetyl tripeptide-aminomethylcoumarins to contrast the substrate preferences of the recombinant Mtb proteasome wild type and open gate mutant, the Rhodococcus erythropolis proteasome, and the bovine proteasome with activator PA28. The Mtb proteasome was distinctive in strictly preferring P1 = tryptophan, particularly in combination with P3 = glycine, proline, lysine or arginine. Screening results were validated with Michalis-Menten kinetic analyses of 21 oligopeptide aminomethyl-coumarin substrates. Bortezomib, a proteasome inhibitor in clinical use, and 17 analogs varying only at P1 were used to examine the differential impact of inhibitors on human and Mtb proteasomes. The results with the inhibitor panel confirmed those with the substrate panel in demonstrating differential preferences of Mtb and mammalian proteasomes at the P1 amino acid. Changing P1 in bortezomib from Leu to m-CF(3)-Phe led to a 220-fold increase in IC(50) against the human proteasome, whereas changing a P1 Ala to m-F-Phe decreased the IC(50) 400-fold against the Mtb proteasome. The change of a P1 Ala to m-Cl-Phe led to an 8000-fold shift in inhibitory potency in favor of the Mtb proteasome, resulting in 8-fold selectivity. Combinations of preferred amino acids at different sites may thus improve the species selectivity of peptide-based inhibitors that target the Mtb proteasome.
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PMID:Distinct specificities of Mycobacterium tuberculosis and mammalian proteasomes for N-acetyl tripeptide substrates. 1882 65

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