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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 multicatalytic proteinase (MCP) complex or proteasome is a major nonlysosomal proteinase of eukaryotic cells. The proteinase can cleave peptide bonds on the carboxyl side of hydrophobic, basic, or acidic amino acid residues. These activities have been referred to as "chymotrypsin-like", "trypsin-like", and "peptidylglutamyl-peptide hydrolase" activities, respectively, and have been shown to be catalyzed at distinct sites. The latter activity is often assayed with the synthetic peptide substrate Z-Leu-Leu-Glu-beta-naphthylamide (LLE-NA). N-tBoc-Ala-Ala-Asp-SBzl is also a substrate for the rat liver MCP, suggesting a broader specificity for cleavage on the carboxyl side of acidic residues than the peptidylglutamyl-peptide hydrolase activity previously reported. The pH optimum is in the range of pH 7.0-7.5. Studies of the dependence of velocity on LLE-NA concentration show (a) that there is a high-affinity site (LLE1) which obeys Michaelis-Menten kinetics with a Km value of approximately 100 microM and (b) that at higher substrate concentrations (LLE2) the curve is sigmoidal, suggesting either allosteric activation of the proteinase at a second site or the involvement of multiple catalytic sites which display positive cooperativity. Activity at the high-affinity site (LLE1) can be distinguished from that of the activity of the LLE2 component by the effect of inhibitors, divalent metal ions, and KCl, as well as by its response to heat treatment. The addition of 1 mM MnCl2 stimulates both LLE1 and LLE2 activities and also permits saturation of MCP with substrate at concentrations of LLE-NA below the solubility limit of this peptide.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Peptidylglutamyl-peptide hydrolase activity of the multicatalytic proteinase complex: evidence for a new high-affinity site, analysis of cooperative kinetics, and the effect of manganese ions. 156 59

The proteasome is a multicatalytic proteinase complex composed of nonidentical subunits. By immunocytochemical analysis using monoclonal antibody raised against the egg proteasome, we demonstrate that the proteasome undergoes changes in its subcellular distribution, depending on the cell division cycle during embryonic development of the ascidian Halocynthia roretzi. During interphase, the proteasome is localized in the nucleus, i.e., in the nucleoplasm and along the nuclear membrane. The proteasome disappears from the nucleoplasm in prophase and from the nuclear envelope in prometaphase. During early metaphase, the proteasome is detectable in the chromosomes and, at late stages of metaphase, the immunoreactivity also occurs in the peripheral region of each spindle pole and at the mitotic spindle. In anaphase, however, the staining disappears in the mitotic apparatus. In telophase, the proteasome is again localized in the newly formed nucleus. In addition to the localization in the nucleus and around the mitotic apparatus, the proteasome shows cytoplasmic localization throughout the cell division cycle. Such a change of subcellular distribution of the proteasome is clearly demonstrated in the synchronously dividing blastomeres and also is believed to occur in the postcleavage embryos. These observations suggest that the proteasome may play a key role in the progression of cell division cycle.
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PMID:Cell cycle-dependent change of proteasome distribution during embryonic development of the ascidian Halocynthia roretzi. 157 92

Proteasomes are ring- or cylinder-shaped particles that have a sedimentation coefficient of 20S and are composed of a characteristic set of small polypeptides. These particles have a latent multicatalytic proteinase activity. Recently, proteasomes were found to combine reversibly with multiple protein components to form 26S proteolytic complexes that catalyze ATP-dependent, selective breakdown of proteins ligated with ubiquitin. This suggests that the 26S complexes are a new type of ATP-requiring protease in eukaryotic cells. We have studied the structures of various eukaryotic proteasomes at the molecular level by physicochemical and recombinant DNA techniques and have proposed that the gross structures of proteasomes, such as their size and shape, have been highly conserved during evolution. Proteasome subunits appear to be encoded by a family of homologous genes named the "proteasome gene family," which may have evolved from a common ancestral gene. Evidence obtained by genetic analyses in yeast and studies on the levels of proteasome expression in various eukaryotic cells indicates that proteasomes have essential roles in the cell. In this review, we summarize available information on the protein and gene structures of proteasomes and discuss the biological functions of proteasomes.
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PMID:Proteasomes: protein and gene structures. 158 Dec 88

A protein that greatly stimulates the multiple peptidase activities of the 20 S proteasome (also known as macropain, the multicatalytic protease complex, and 20 S protease) has been purified from bovine red blood cells and from bovine heart. The activator protein was a single polypeptide with an apparent molecular weight of 28,000, as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, and had a native molecular weight of approximately 180,000. This protein, which we have termed PA28, regulated all three of the putatively distinct peptidase activities displayed by each of two functionally different forms of the proteasome. This regulation usually included both an increase in the maximal reaction velocity and a decrease in the concentration of substrate required for half-maximal velocity and indicated that PA28 acted as a positive allosteric effector of the proteasome. PA28 failed, however, to stimulate the hydrolysis of large protein substrates such as casein and lysozyme. These results suggested that the hydrolysis of protein substrates occurred at a site or sites distinct from those that hydrolyzed small peptides and that the regulation of the two processes could be uncoupled. Evidence for direct binding of PA28 to the proteasome was obtained by glycerol density gradient centrifugation. PA28 may play an important regulatory role in intracellular proteolytic pathways mediated by the proteasome.
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PMID:Identification, purification, and characterization of a protein activator (PA28) of the 20 S proteasome (macropain). 158 32

The multicatalytic proteinase (MCP) prosome or proteasome is a large multifunctional complex which is believed to play a major role in non-lysosomal pathways of intracellular protein degradation and has recently been implicated in antigen processing. In this study, affinity-purified antibodies against rat liver MCP were used to investigate the localization of the proteinase both in rat liver and in growing human L-132 cells in culture, using electron microscopic immunogold techniques. Quantitation of the MCP in different subcellular localizations by morphometric analysis of electron micrographs showed the proportion in the nucleus to be 17% for hepatocytes and 51% for L-132 cells, demonstrating differences in the distribution of MCP in different cell types. In hepatocytes, 14% of the total MCP was found associated with the endoplasmic reticulum. The remainder was localized in the cytoplasmic matrix. Immunofluorescence studies with L-132 cells also showed a reaction in nuclei and cytoplasm. The localization of MCP is consistent with its proposed multiple functions in protein turnover, in the production of peptides for antigen presentation, and in RNA processing.
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PMID:Electron microscopic localization of the multicatalytic proteinase complex in rat liver and in cultured cells. 161 80

Prosomes were first described as being mRNA-associated RNP (ribonucleoprotein) particles and subcomponents of repressed mRNPs (messenger ribonucleoprotein). We show here that prosomes isolated from translationally inactive mRNP have a protease activity identical to that described by others for the multicatalytic proteinase complex (MCP, 'proteasome'). By RNase or non-ionic detergent treatment, the MCP activity associated with repressed non-globin mRNP from avian erythroblasts, sedimenting at 35 S, could be quantitatively shifted on sucrose gradients to the 19-S sedimentation zone characteristic of prosomes, which were identified by monoclonal antibodies. The presence of small RNA in the enzymatic complex was shown by immunoprecipitation of the protease activity out of dissociated mRNP using a mixture of anti-prosome monoclonal antibodies; a set of small RNAs 80-120 nucleotides long was isolated from the immunoprecipitate. Furthermore, on CsCl gradients, colocalisation of the MCP activity with prosomal proteins and prosomal RNA was found, and no difference in the prosomal RNA pattern was observed whether the particles were fixed or not prior to centrifugation. These data indicate that the MCP activity is a property of prosomes, shown to be in part RNP and subcomplexes of in vivo untranslated mRNP. A hypothesis for the role of the prosome-MCP particles in maintaining homeostasis of specific protein levels is proposed.
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PMID:Prosomes and their multicatalytic proteinase activity. 163 13

We have cloned and analysed the second mouse MHC-linked proteasome subunit, designated MC13, which appears to be homologous to the human RING10 proteasome protein. The isolated cDNA has an ORF encoding a protein of 276 amino acids with a molecular weight of ca. 30 kDa. Sequence alignment reveals that the subunit MC13 and several other mammalian proteasome subunits are encoded by a second proteasome gene family. This second gene family encodes subunits of the beta-type, reveals striking sequence similarities with the beta-subunit of archaebacterial proteasomes and is related to, but distinct from, the genes encoding the so-called alpha-type subunits.
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PMID:Isolation and characterization of the MHC linked beta-type proteasome subunit MC13 cDNA. 163 42

Prosomes are mRNA-associated RNP particles and cofactors of untranslated (ribosome-) free mRNP having a multicatalytic proteinase (MCP; proteasome) activity. The expression of prosomal proteins in fetal development of the rat liver was investigated by indirect immunofluorescence, using a panel of monoclonal antibodies to individual prosomal proteins (p-mAbs). In all fetal and adult stages tested, strong immunofluorescence staining was observed with the p31K-specific p-mAb exclusively, whilst Western blot analysis showed reactivity also with the p27K and p33K antigens. Double labeling with the 31K p-mAb and an anti-cytokeratin antibody showed that the prosome antigen superimposes partially onto this type of intermediate filaments (IF), confirming earlier observations made on cultured cell lines of various types. Most interestingly, the p31K antigen was found preferentially in the pericanalicular zone of hepatocytes in the developing liver, from day 17 onwards up to the adult state. This shows a preferential concentration of prosomes of a specific type, including the p31K antigen, in the morphologically and possibly functionally specialized apical domain of the hepatocyte, in a differentiation-related fashion.
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PMID:Immunolocalization of a specific type of prosome close to the bile canaliculi in fetal and adult rat liver. 163 91

A high molecular weight protease complex (26 S complex) involved in the intracellular protein degradation of ubiquitinated proteins was purified from rat liver and studied by electron microscopy. The most prevalent molecular species with best preserved symmetrical morphology had two large rectangular terminal structures attached to a thinner central one having four protein layers. We concluded that they were the closest representation of the 26 S complex so far reported. The central structure was identified as 20 S proteasome and the terminal one as recognition units for ubiquitinated proteins.
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PMID:Electron microscopy of 26 S complex containing 20 S proteasome. 165 96

Proteasomes and ubiquitin (Ub) are essential components of the energy-dependent, nonlysosomal proteolytic pathway. To clarify the physiological role of this proteasome/Ub-dependent pathway, we meaured the levels of expressions of proteasomes and Ub in human renal cancers by Northern blot and immunochemical analyses. The mRNAs for two of the multiple subunits of proteasomes, C2 and C9, were expressed at abnormally high levels in most neoplastic lesions of patients with various primary renal cell carcinomas and in all renal cancer cell lines examined. However, no significant difference was found by enzyme immunoassay in the proteasomal contents of cancerous and normal parts of the kidney. The levels of mRNAs for the subunits of proteasomes were high in rapidly proliferating renal cells and appeared to be correlated with the activities of these cells for proteasome synthesis, but the cellular contents of proteasomes in these cells were normal, suggesting rapid turnover of proteasomes in rapidly proliferating cancer cells. Consistent with the increased expressions of proteasomal mRNAs, the expressions of three Ub genes, mono-UbA80, mono-UbA52, and poly-UbC, were found to be greatly increased in these renal cancer cells. Immunohistochemical staining of normal kidney showed that the levels of both proteasomes and Ub were high in cells of renal tubules and collecting ducts, but low in the glomerulus. The levels of both proteins appeared to be considerably increased in the nuclei of granular and clear carcinoma cells of the kidney. Moreover, the profiles of cellular proteins conjugated with Ub in normal kidney tissues were different from those in cancerous parts of the kidney and in established renal cancer cells. These results suggest that the proteasome- and ubiquitin-mediated system is functionally involved in the cancerous state in human kidney.
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PMID:Changes in expressions of proteasome and ubiquitin genes in human renal cancer cells. 166 Mar 45


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