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)

Genomic clones were obtained for the genes encoding the beta subunits of the human proteasome and for the associated proteasome activators PA28alpha and beta (PSME1 and PSME2, respectively). Fluorescence in situ hybridization was used to map the gene encoding the beta subunit PSMB3 (beta3 hs, HsC10-II) to chromosome band 2q35, PSMB2 (beta4 hs, HsC7-I) to band 1p34.2, and PSMB4 (beta7 hs, HSBpros 26) to band 1q21. Genes encoding the alpha and beta subunits of the PA28 complex were found closely linked on chromosome band 14q11.2, within 1 Mb of the beta proteasome locus PSMB5 (beta5 hs, MB1, X). These data complete the mapping of the human proteasome beta subunit loci. With the exception of the genes encoding the PSMB9 and PSMB8 (LMP2 and LMP7, respectively) subunits, the beta genes were not closely linked in the human genome. Both PSMB2 and PSMB4 mapped to a region of chromosome 1 that is proposed to be paralogous to other regions of the human genome where beta proteasome genes map: chromosome 6 containing the major histocompatibility complex (MHC) and chromosome 9. The independent regulation of expression of all of these genes, implied by this study, is consistent with a key role for proteasome assembly in coordination of the complex.
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PMID:Genetic relationships of the genes encoding the human proteasome beta subunits and the proteasome PA28 complex. 934 61

The proteasome is a multi-subunit protease responsible for the production of peptides presented by major histocompatibility complex class I molecules. Accumulated evidence indicates that, upon stimulation with interferon-gamma (IFN-gamma), three beta-type subunits, designated LMP2, LMP7, and PSMB10, are incorporated into the 20S proteasome by displacing the housekeeping beta-type subunits designated PSMB6, PSMB5, and PSMB7, respectively. These changes in the subunit composition appear to facilitate class I-mediated antigen presentation, presumably by altering the cleavage specificities of the proteasome. In the present study, we determined the organization of the mouse gene Psmb5, coding for the PSMB5 subunit. Psmb5 is made up of three exons, spanning approximately 5 kilobases. Its exon-intron organization differs radically from those of the other IFN-gamma-regulated, beta-type subunit genes including Lmp7 with which Psmb5 is believed to share an immediate common ancestor. The structure of the mouse Psmb5 gene is identical to that of its recently characterized human counterpart. Thus, the unique organization of the gene coding for the PSMB5 subunit appears to have been established before mammalian radiation. As well as the Psmb5 gene, the mouse genome contains a processed pseudogene designated Psmb5-ps. Interspecific backcross mapping showed that Psmb5 maps close to the Gtrgal2 locus on chromosome 14 and that Psmb5-ps is located in the vicinity of the Psme3 locus on chromosome 11. These results were confirmed by fluorescent in situ hybridization analysis that localized Psmb5 to band C2 to proximal D1 of chromosome 14 and Psmb5-ps to band D of chromosome 11.
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PMID:Structural analysis and chromosomal localization of the mouse Psmb5 gene coding for the constitutively expressed beta-type proteasome subunit. 938 24

The proteasome is a large multicatalytic proteinase that plays a role in the generation of peptides for presentation by major histocompatibility complex class I molecules. The 20S proteolytic core of mammalian proteasomes is assembled from a group of 17 protein subunits that generate a distinctive pattern of spots upon two-dimensional gel electrophoresis. The genes for most of these subunits have been cloned from humans and rats. We isolated cDNA clones for the mouse orthologues of ten of the subunits [PSMA1 (C2), PSMA2 (C3), PSMA3 (C8), PSMA4 (C9), PSMA5 (ZETA), PSMA6 (IOTA), PSMA7 (C6-I), PSMB2 (C7-I), PSMB3 (C10-II), and PSMB5 (X)] to complete the cloning of all of the mouse subunits. Using antisera raised against these subunits or their orthologues, we verified the identity of these proteins by two-dimensional NEPHGE-PAGE.
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PMID:The complete primary structure of mouse 20S proteasomes. 1043 76

Proteasomes degrade damaged proteins formed during oxidative stress, thereby promoting cell survival. Neurodegenerative and other age-related disorders are associated with reduced proteasome activity. We show herein that expression of most subunits of 20S and 19S proteasomes, which collectively assemble the 26S proteasome, was enhanced up to threefold in livers of mice following treatment with dithiolethiones, which act as indirect antioxidants. Subunit protein levels and proteasome activity were coordinately increased. No induction was seen in mice where the transcription factor Nrf2 was disrupted. Promoter activity of the PSMB5 subunit of the 20S proteasome increased with either Nrf2 overexpression or treatment with antioxidants in mouse embryonic fibroblasts. Tandem antioxidant response elements in the proximal promoter of PSMB5 that controlled these responses were identified. We propose that induction of the 26S proteasome through the Nrf2 pathway represents an important indirect action of these antioxidants that can contribute to their protective effects against chronic diseases.
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PMID:Antioxidants enhance mammalian proteasome expression through the Keap1-Nrf2 signaling pathway. 1461 18

The mechanisms involved in the progressive malfunction of the trabecular meshwork (TM) in glaucoma are not yet understood. To study age-related changes in human TM cells, we isolated primary TM cell cultures from young (ages 9, 14, and 25) and old (ages 66, 70, and 73) donors, and compared levels of oxidized proteins, autofluorescence, proteasome function, and markers for cellular senescence. TM cells from old donors showed a 3-fold increase in oxidized proteins and a 7.5-fold decrease of proteasome activity. Loss of proteasome function was not associated with decreased proteasome content but with partial replacement of the proteolytic subunit PSMB5 with the inducible subunit LMP7. Cells from old donors also demonstrated features characteristic of cellular senescence associated with phosphorylation of p38MAPK but only a modest increase in p53. These data suggest that age-related proteasome inhibition and cellular senescence could contribute to the pathophysiological alterations of the TM in glaucoma.
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PMID:Effects of donor age on proteasome activity and senescence in trabecular meshwork cells. 1538 Nov 5

The LMP7 and PSMB5 genes were created through an ancient gene duplication event of their ancestral locus. These proteins contain an active site of proteolysis, and LMP7 replaces PSMB5 as a component of the 20S proteasome after stimulation of cells by interferon-gamma. Replacement of PSMB5 by LMP7 changes the profile of the products of 20S proteasome processing, predisposing digested peptides for transport to and display by the immune system. The purpose of this study is to investigate evolutionary forces influencing functional divergence between LMP7 and PSMB5 following duplication. Levels of synonymous and nonsynonymous substitution rates are estimated to infer differences in levels of natural selection. Estimates of substitution rates indicate that natural selection elevated rates of nonsynonymous substitution in LMP7 following gene duplication, whereas PSMB5 experienced an increase in substitution rate that was not likely due to diversifying natural selection following duplication. Following initial divergence, nearly neutral mutations have dominated gene evolution in both lineages. The LMP7 gene locus provides a rare example of a protein with specialized function arising from duplication and divergence of a housekeeping protein by way of natural selection.
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PMID:Natural selection during functional divergence to LMP7 and proteasome subunit X (PSMB5) following gene duplication. 1578 50

The 26S proteasome is responsible for degradation of abnormal intracellular proteins, including oxidatively damaged proteins and may play a role as a component of a cellular antioxidative system. However, little is known about regulation of proteasome expression. In the present study, regulation of proteasome expression by the bifunctional enzyme inducer and a specific signaling pathway for this regulation were investigated in murine neuroblastoma cells. Expression of catalytic core subunits including PSMB5 and peptidase activities of the proteasome were elevated following incubation with 3-methylcholanthrene (3-MC). Studies using reporter genes containing the murine Psmb5 promoter showed that transcriptional activity of this gene was enhanced by 3-MC. Overexpression of AhR/Arnt did not affect activation of the Pmsb5 promoter by 3-MC and deletion of the xenobiotic response elements (XREs) from this promoter exerted modest effects on inducibility in response to 3-MC. However, mutation of the proximal AREs of the Psmb5 promoter largely abrogated its inducibility by 3-MC. In addition, this promoter showed a blunted response toward 3-MC in the absence of nrf2; 3-MC incubation increased nuclear levels of Nrf2 only in wild-type cells. Collectively, these results indicate that expression of proteasome subunit PSMB5 is modulated by bifunctional enzyme inducers in a manner independent of the AhR/Arnt-XRE pathway but dependent upon the Nrf2-ARE pathway.
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PMID:Induction of 26S proteasome subunit PSMB5 by the bifunctional inducer 3-methylcholanthrene through the Nrf2-ARE, but not the AhR/Arnt-XRE, pathway. 1672 19

The ubiquitin-proteasome system facilitates the degradation of damaged proteins and regulators of growth and stress response. Alterations in this proteolytic system are associated with a variety of human pathologies. By restriction fragment differential display polymerase chain reaction (RFDD-PCR) and matrix-assisted laser desorption/ionization tandem time-of-flight mass spectrometry (MALDI-TOF-TOF MS) based on two-dimensional polyacrylamide gel electrophoresis (2-DE), differentially expressed genes and proteins of ubiquitin specific proteases (USPs), proteasome subuinits (PSs) and ubiquitin protein ligase E3A (UBE3A) were analyzed between breast cancer and adjacent normal tissues. Some of them were further verified as over-expression by immunohistochemical stain. Five genes of proteasome subunits (PSs), including PSMB5, PSMD1, PSMD2, PSMD8 and PSMD11, four genes of USPs, including USP9X, USP9Y, USP10 and USP25, and ubiquitin protein ligase E3A (UBE3A) were over-expressed (>3-fold) in breast cancer tissue compared to adjacent normal tissue, and over-expression (>4-fold) of proteins of PSMA1 and SMT3A were observed in breast cancer tissue. PSMD8, PSMD11 and UBE3A were further verified as over-expression by immunohistochemical stain. The action of ubiquitin-proteasome system were obviously enhanced in breast cancer, and selectively intervention in action of ubiquitin-proteasome system may be a useful method of treating human breast cancer.
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PMID:Over-expression of genes and proteins of ubiquitin specific peptidases (USPs) and proteasome subunits (PSs) in breast cancer tissue observed by the methods of RFDD-PCR and proteomics. 1700 5

Decreases in the 26S proteasome are related to the toxicities of abnormal protein aggregates and may contribute to pathogenesis of degenerative diseases. Therefore, maintenance of proteasome function can be a novel strategy to protect cells against abnormal protein-mediated toxicity. In the present study, we have demonstrated the tissue specific increase of the catalytic subunits of the proteasome in mice following oral administration of 3H-1,2-dithiole-3-thione (D3T, 0.5 mmol/kg), which functions as a cancer preventive agent in animal and human studies. Expression of the 20S catalytic core subunits PSMB5, PSMB6, and PSMB7 were increased in liver, lung, small intestine, and colon of mice at 24 h after D3T treatment. Elevated expression of proteasome catalytic subunits led to increases in proteasomal peptidase activities in these tissues. Oral administration of D3T also exerted a pharmacodynamic action in some brain regions of these mice and proteasomal peptidase activities were significantly elevated in the cerebral cortex-hippocampus. Moreover, tissue extracts from D3T-treated mice and cell lysates obtained from D3T-incubated murine neuroblastoma cells exhibited the enhanced capacity to degrade mutant human SOD1G93A protein. These results indicate that the catalytic subunits of the 26S proteasome are inducible in multiple tissues of mouse including brain by exogenous chemical treatment. Increased proteasome expression by inducers may have a role in protection/attenuation of protein aggregate-mediated disorders.
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PMID:Tissue specific increase of the catalytic subunits of the 26S proteasome by indirect antioxidant dithiolethione in mice: enhanced activity for degradation of abnormal protein. 1752 79

The 26S proteasome is responsible for degradation of abnormal proteins and may play a role in cell survival upon oxidative stress. The indirect antioxidant sulforaphane (SFN) protects animal tissues from chemical toxicants by increasing the expression of several families of Nrf2-regulated genes. The role of induction of the 26S proteasome in cytoprotection by SFN was investigated in murine neuroblastoma Neuro2A cells. SFN enhanced the expression of the catalytic subunits of the proteasome, as well as proteasomal peptidase activities in these cells. Such treatment with SFN protected cells from hydrogen peroxide-mediated cytotoxicity in a manner dependent on proteasomal function. Inhibition of proteasome activities using pharmacological interventions significantly attenuated the protective effects of SFN against hydrogen peroxide cytotoxicity, as well as protein oxidation. Moreover, overexpression of the catalytic subunit PSMB5 enhanced proteasome function and led to elevated resistance against hydrogen peroxide toxicity and extent of protein oxidation compared to blank-plasmid-transfected cells. Pretreatment of PSMB5-overexpressing cells with SFN did not further enhance this resistance. Collectively, these results suggest that the cytoprotective effects of SFN against oxidative stress are in part due to up-regulation of the proteasome system. Therefore, inducers of proteasome expression may ameliorate the accumulation of damaged proteins associated with neurodegeneration and other diseases in whose etiologies protein oxidation plays a role.
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PMID:Role of increased expression of the proteasome in the protective effects of sulforaphane against hydrogen peroxide-mediated cytotoxicity in murine neuroblastoma cells. 1766 44

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