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)

Recent studies have demonstrated that the proteasome, in addition to functioning in the complete degradation of cell proteins, is the source of most antigenic peptides presented to the immune system on major histocompatibility complex (MHC)-class I molecules. In this process, intracellular and viral proteins are degraded in the cytosol to 8- to 9-amino acid fragments, which are then transported into the endoplasmic reticulum, where they become associated with MHC-class I molecules and are thus delivered to the cell surface. A variety of evidence has shown that the proteasome and ATP-ubiquitin-dependent pathway are critical in this process: (1) In cells, selective inhibitors of proteasome function inhibit the bulk of protein degradation and thus prevent the generation of peptides necessary for class I presentation and the appearance of MHC on the cell surface. (2) Mutations that block ubiquitin conjugation prevent the generation of an antigenic peptide. (3) Modifications that lead to rapid degradation of a protein by the ubiquitin pathway enhance antigen presentation. (4) gamma-Interferon (gamma-IFN) induces new proteasome subunits, LMP2 and LMP7, encoded in the MHC region that are incorporated in place of constitutive proteasome subunits. Their incorporation does not affect rates of protein breakdown but causes changes in peptidase activities, i.e. they increase rates of cleavage after basic and hydrophobic residues and decrease cleavage after acidic residues. Transfections of cells with LMP2 or LMP7 cause similar changes in these peptidase activities as are caused by gamma-IFN. These modifications in peptidase activities should enhance the production of those types of peptides which are preferentially transported into endoplasmic reticulum and selectively bound to MHC-class I molecules.
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PMID:Role of proteasomes in antigen presentation. 769 33

The proteasome plays a central role in ubiquitin-dependent and -independent proteolysis in eukaryotic cells. The hawkmoth proteasome was purified from larval body wall and characterized with respect to substrate specificity, sensitivity to protease inhibitors, and cross-reactivity with monoclonal antibodies (mAbs) raised against human placenta proteasome. Leupeptin selectively inhibited the trypsin-like activity (T-L) and N-ethylmaleimide inhibited both T-L and chymotrypsin-like activities, whereas 0.02% sodium dodecyl sulfate stimulated the peptidylglutamyl peptide hydrolase, branched-chain amino acid preferring, and caseinolytic activities 20-, 18-, and 3.8-fold, respectively. All four peptidase activities were inhibited by 3,4-dichloroisocoumarin. One-dimensional immunoblot analysis showed that the level and subunit composition of the proteasome varied between tissues. The relative levels of proteasome were high in intersegmental muscle and ovary, lower in Malpighian tubule, male accessory gland, and ventral nerve cord, and lowest in flight muscle and fat body. The tissues differed in the relative amount of a 41-kDa doublet; a 22-kDa subunit was present only in the male accessory gland. Two-dimensional polyacrylamide gel electrophoresis showed that the hawkmoth proteasome contained at least 26 subunits, compared with 28 subunits in lobster. Immunological analysis using four subunit-specific mAbs identified the putative homologs of the human zeta, C2, C3, and C8 alpha-type subunits in the hawkmoth and lobster enzymes. Two of the four mAbs reacted with three or more of the hawkmoth subunits and three of the mAbs reacted with two or more of the lobster subunits. In addition, two other mAbs that recognize epitopes shared by a number of alpha-type subunits indicated that at least 15 (lobster) or 16 (hawkmoth) subunits were alpha-type. These results suggest that much of the subunit complexity of the arthropod proteasomes is a consequence of extensive post-translational modifications.
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PMID:The multicatalytic proteinase (proteasome) of the hawkmoth, Manduca sexta: catalytic properties and immunological comparison with the lobster enzyme complex. 772 56

Lactacystin is a Streptomyces metabolite that inhibits cell cycle progression and induces neurite outgrowth in a murine neuroblastoma cell line. Tritium-labeled lactacystin was used to identify the 20S proteasome as its specific cellular target. Three distinct peptidase activities of this enzyme complex (trypsin-like, chymotrypsin-like, and peptidylglutamyl-peptide hydrolyzing activities) were inhibited by lactacystin, the first two irreversibly and all at different rates. None of five other proteases were inhibited, and the ability of lactacystin analogs to inhibit cell cycle progression and induce neurite outgrowth correlated with their ability to inhibit the proteasome. Lactacystin appears to modify covalently the highly conserved amino-terminal threonine of the mammalian proteasome subunit X (also called MB1), a close homolog of the LMP7 proteasome subunit encoded by the major histocompatibility complex. This threonine residue may therefore have a catalytic role, and subunit X/MB1 may be a core component of an amino-terminal-threonine protease activity of the proteasome.
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PMID:Inhibition of proteasome activities and subunit-specific amino-terminal threonine modification by lactacystin. 773 82

cDNA clone MS73 codes for an ATPase that is a regulatory subunit of the 26 S proteasome. Reverse transcriptase polymerase chain reaction analysis demonstrates that the expression of the gene dramatically increases in the pre-eclosion period. Western analyses show increases in other related. ATPases including MS73, MSS1, and mts2 but not TBP1. A similar increase in the 30-kDa subunit of the 20 S proteasome occurs. There are accompanying large changes in the peptidase activities of the 26 S proteasome. Relative to the 30-kDa subunit, there is no change in MSS1 and MS73, a 3-fold increase in mts2, and a 5-fold decline in TBP1. A large increase in the concentration of 26 S proteasomes together with extensive regulatory reprogramming may facilitate rapid muscular proteolysis.
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PMID:Developmental changes of the 26 S proteasome in abdominal intersegmental muscles of Manduca sexta during programmed cell death. 782 21

The multicatalytic proteinase (MCP or proteasome) is a large proteolytic complex that contains at least five catalytic components: the trypsin-like, chymotrypsin-like, peptidylglutamyl-peptide hydrolase (PGPH), branched-chain-amino-acid-preferring (BrAAP) and small-neutral-amino-acid-preferring activities. We have shown that brief heating of the lobster muscle proteasome activates a proteolytic activity that degrades casein and myofibrillar proteins and is distinct from the trypsin-like, chymotrypsin-like and PGPH components. Here we identify the BrAAP activity as a catalytic component involved in the initial degradation of myofibrillar proteins in vitro. This conclusion is based on the following. (1) The BrAAP component was activated by heat-treatment, whereas the other four peptidase activities were not. (2) The BrAAP and proteolytic activities showed similar sensitivities to cations and protease inhibitors: both were inhibited by 3,4-dichloroisocoumarin, chymostatin, N-ethylmaleimide and Mg2+, but were not affected by leupeptin, phenylmethanesulphonyl fluoride or Li+. (3) The BrAAP activity was inhibited most strongly by casein substrates and troponin; conversely, the troponin-degrading activity was inhibited by the BrAAP substrate. Another significant finding was that incubation of the heat-activated MCP in the presence of chymostatin resulted in the limited cleavage of troponin-T2 (45 kDa) to two fragments of 41 and 42 kDa; this cleavage was completely suppressed by leupeptin. These results suggest that under certain conditions the trypsin-like component can cleave endogenous protein.
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PMID:Branched-chain-amino-acid-preferring peptidase activity of the lobster multicatalytic proteinase (proteasome) and the degradation of myofibrillar proteins. 786 22

Recent studies have implicated proteasomes in the generation of the antigenic peptides that are presented on major histocompatibility complex class I molecules to T lymphocytes. Interferon gamma modifies the subunit composition of proteasomes and causes changes in their peptidase activities that should favor the production of peptides with hydrophobic or basic carboxyl termini (i.e., the types found on major histocompatibility complex class I molecules). It has been proposed that these changes in peptidase activity are due to incorporation into proteasomes of the major histocompatibility complex-encoded subunits LMP2 and -7, which are induced by interferon gamma. Here we show by gene transfection into lymphoblasts or HeLa cells that LMP7 increases the capacity (Vmax) of 20S and 26S proteasomes to cleave peptides after hydrophobic and basic residues without affecting hydrolysis after acidic residues. These changes depended on the amount of LMP7 subunits incorporated into proteasomes. Transfection of LMP2 reduced cleavage of peptides after acidic residues, increased hydrolysis after basic residues, and did not affect the hydrophobic activity. Since the activity of the total proteasome population changed after incorporation of only small amounts of LMP2 or -7, these subunits must cause major alterations in peptidase activity. Thus, their expression can account for the changes in proteasome activity induced by inteferon gamma, and these findings lend further support to the proposed roles of LMPs in altering the nature of the peptides generated for antigen presentation.
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PMID:Peptidase activities of proteasomes are differentially regulated by the major histocompatibility complex-encoded genes for LMP2 and LMP7. 793 44

PA28, one of a series of a positive allosteric regulators of the 20 S proteasome, stimulates the enzyme's peptidase activities in an ATP-independent manner by binding to the terminal rings of the 20 S complex. PA28 has a native molecular mass of 180,000 Da and contains at least six subunits of approximately 28,000 Da. In this study we show that PA28 prepared from bovine heart contains two different subunits separable by reverse phase high performance liquid chromatography and that these subunits occur in approximately equal abundance. The subunits display mass values of 27,290 +/- 3.7 and 28,606 +/- 2.8 Da by electrospray mass spectrometry, showing that they differ in covalent structure. Partial amino acid sequence analysis of the subunits indicates that the subunits are the products of two different but homologous genes. A pair of subunits has also been isolated from rabbit heart, and partial amino acid sequence analysis shows each to be homologous to the corresponding subunit in bovine tissues. This indicates that the genes encoding two different polypeptide components of PA28 have been conserved during evolution and suggests the possibility that the two subunits play functionally distinct roles. Isolation of complexes formed between purified PA28 and the 20 S proteasome using density gradient centrifugation reveals that both PA28 subunits bind to the proteasome, indicating that both are components of functional PA28 molecules. These results are consistent with two alternative models for the subunit structure of PA28. There may exist two different PA28 molecules that are homooligomers of the 27,290- and 28,606-Da subunits, respectively. Alternatively, PA28 oligomers may contain mixtures of the 27,290- and 28,606-Da subunits either of fixed or variable stoichiometry.
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PMID:PA28, an activator of the 20 S proteasome, is composed of two nonidentical but homologous subunits. 798 12

Reagents that inhibit the ubiquitin-proteasome proteolytic pathway in cells have not been available. Peptide aldehydes that inhibit major peptidase activities of the 20S and 26S proteasomes are shown to reduce the degradation of protein and ubiquitinated protein substrates by 26S particles. Unlike inhibitors of lysosomal proteolysis, these compounds inhibit the degradation of not only abnormal and short-lived polypeptides but also long-lived proteins in intact cells. We used these agents to test the importance of the proteasome in antigen presentation. When ovalbumin is introduced into the cytosol of lymphoblasts, these inhibitors block the presentation on MHC class I molecules of an ovalbumin-derived peptide by preventing its proteolytic generation. By preventing peptide production from cell proteins, these inhibitors block the assembly of class I molecules. Therefore, the proteasome catalyzes the degradation of the vast majority of cell proteins and generates most peptides presented on MHC class I molecules.
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PMID:Inhibitors of the proteasome block the degradation of most cell proteins and the generation of peptides presented on MHC class I molecules. 808 44

In order to identify protein complexes consisting of the proteasome and specific proteasome regulators, crude soluble lysates of red blood cells were fractionated by gel filtration chromatography and by velocity sedimentation centrifugation. The fractionated lysates were then tested for the relative distribution of proteasome activity, proteasome protein, and protein of a known proteasome activator, PA28. At least two proteasome complexes containing PA28 were identified. One of these complexes had an apparent molecular weight of approximately 1,750,000, and appeared to have much more proteasome activity than could be accounted for by its relative concentrations of proteasome and PA28 protein. We hypothesized that this complex contained another activator of the proteasome, and we sought to purify this activator from extracts of red blood cells. A proteasome activator with an apparent molecular weight of approximately 700,000 was identified, purified, and characterized. This activator, termed PA700, greatly stimulated the peptidase activities of the proteasome in an ATP-dependent fashion. PA700 was composed of about 16 polypeptides ranging in molecular weight from 20,000 to 100,000. The ATP-dependent activation of the proteasome by PA700 was closely linked to the formation of a high molecular weight complex that required no additional ATP for activated proteolysis. These results indicate that PA700 is a regulatory protein of the proteasome and is a component of at least one high molecular weight proteasome-containing complex occurring in cell extracts.
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PMID:Identification, purification, and characterization of a high molecular weight, ATP-dependent activator (PA700) of the 20 S proteasome. 810 96

The 26 S proteolytic complex ("26 S proteasome") is a macromolecular assembly thought to be involved in ATP- and ubiquitin-dependent protein degradation in the cytoplasm of higher eukaryotic cells. This complex is composed of one 20 S cylinder particle (multicatalytic proteinase, 20 S proteasome) and two cap-shaped 19 S particles comprising a set of polypeptides in the M(r) range of 35,000-110,000. Here we show that cell supernatant fractions contain both these two subunit complexes as distinct particles as well as assembled to 26 S proteasomes. We have separated and purified all three forms from Xenopus laevis oocytes and have determined their peptidase and protease activities. Using various antibodies specific for either a constitutive p52 polypeptide of the 19 S cap complex or for proteins of the 20 S cylinder particle, we have immunolocalized these complexes in both the cytoplasm and the nucleus of diverse species and cell types. The occurrence of all three forms, the 26 S proteasome, the 20 S cylinder particle, and the 19 S cap complex in the nucleoplasm has also been demonstrated in analyses of isolated giant nuclei from Xenopus oocytes. In addition, we show that the 19 S and 20 S subcomplexes can be released from 26 S proteasomes by ATP depletion and that readdition of ATP to 19 S and 20 S particles in cell extracts leads to the reformation of 26 S proteasomes. We discuss that all three particles (19 S, 20 S, and 26 S) exist in a dynamic equilibrium in both cell compartments and serve cytoplasmic as well as nucleus-specific functions.
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PMID:Distinct 19 S and 20 S subcomplexes of the 26 S proteasome and their distribution in the nucleus and the cytoplasm. 812 97

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