Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

Prosomes are small ribonucleoprotein (RNP) particles of unique morphology in the electron microscope but of variable protein and RNA composition, depending on the differentiation state of the cells studied. They were initially observed as subcomplexes of untranslated mRNP. In previous studies, we found that prosomes are associated to the intermediate filaments (IF) of cytokeratin type in HeLa and PtK1 cells. Here we have studied in detail the association of prosomal antigens with the IF networks in PtK1 cells. Contrary to our earlier conclusions, in these cells the vimentin fibers also carry prosomes which, thus, distribute in between the two types of networks. During the selective collapse of the IF induced by acrylamide, and upon recovery after the withdrawal of the drug, no dissociation of the prosome and IF networks of cytokeratin- and vimentin-type could be observed. These data show that even in a dynamic situation, prosome and IF antigens do not dissociate, indicating strongly that they are located on one and the same structure. Furthermore, the differential distribution of specific prosomal antigens between both types of intermediate filament networks indicates that prosomes do not ubiquitously populate the intermediate filaments but occupy subnetworks of either vimentin or cytokeratin type.
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PMID:Specific types of prosomes are associated to subnetworks of the intermediate filaments in PtK1 cells. 128 72

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

PROSOMES are a novel class of small RNP particles of uniform morphology, but of variable RNA (pRNA) and protein composition (about 650,000 MW; 12 nm diameter in the EM). They were discovered as subcomplexes of free mRNP, tightly attached to inactive mRNA in the cytoplasm. The pRNAs hybridize stably to mRNA. Prosomes associate in vitro to mRNA and inhibit cell free protein synthesis inducing an mRNA structure unable to interact with ribosomes. Many types of prosomes were observed. The individual particle is made up by a variable combination of about 20 characteristic proteins and one or several pRNa. Some prosomal proteins are glycosylated, phosphorylated and, possibly, ADP-ribosylated and are highly conserved in evolution whilst others vary with the species and the mRNA population they are associated to. A protease activity was found associated to prosomes. The function(s) of the prosomes is(are) still unknown. The differential inhibition of in vitro protein synthesis points to a capacity to recognize mRNA and to keep it in an inactive state. The observation with the aid of monoclonal antibodies (pMABs) that prosomes and thus mRNP are attached to the intermediate filaments (IF) raises the question if one of the functions of the IF might be in the topological distribution of mRNA within the cell. Similar to the cytokeratin fibers, the prosome networks bridge neighboring cells at specific positions. The nucleus also contains some prosomal antigens, located on chromosomes and on the nuclear matrix. Their presence and distribution in the cell compartments varies with the cell type and the prosomal antigen probed. Oocytes contain large amounts of prosomes.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Prosomes, subcomplexes of untranslated mRNP. 169 72

The small RNP complexes of defined morphology and biochemical composition termed prosomes, first isolated from the cytoplasm associated with repressed mRNA (Martins de Sa, C., M.-F. Grossi de Sa, O. Akhayat, F. Broders, and K. Scherrer. J. Mol. Biol. 1986. 187:47-493), were found also in the nucleus (Grossi de Sa, M.-F., C. Martins de Sa, F. Harper, O. Coux, O. Akhayat, P. Gounon, J. K. Pal, Y. Florentin, and K. Scherrer. 1988. J. Cell Sci. 89:151-165). Immunofluorescence, immunoelectron microscopy, and immunochemical studies using mAbs directed against some of the prosomal proteins of duck erythroblasts indicate that in the cytoplasm of HeLa and PtK cells, prosome antigens are associated with the intermediate filament network of the cytokeratin type.
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PMID:The association of prosomes with some of the intermediate filament networks of the animal cell. 245 30

Analysis by double-label indirect immunofluorescence of PtK1 and HeLa cells had previously demonstrated that prosome* antigens form networks that superimpose on those of the intermediate filaments of the cytokeratin type. We show here that in PtK1 cells various prosomal antigens also reside to a variable extent on intermediate filaments subnetworks of the vimentin type. In proliferating human fibroblasts the prosome and vimentin networks were found to coincide, while in proliferating myoblasts of the C2.7 mouse myogenic cell line the prosomal antigens seem to superimpose on the intermediate filaments of the desmin type. Thus, the prosomes, which are RNP particles of variable composition and subcomplexes of untranslated mRNP, and carry a multicatalytic proteinase activity, seem to co-localize with the specific kind of cytoplasmic intermediate filament in relation to the cell type. These results, which generalize the previous data, are discussed in view of possible role(s) for prosomes in mRNA metabolism and/or intermediate filaments remodelling.
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PMID:Cytolocation of prosome antigens on intermediate filament subnetworks of cytokeratin, vimentin and desmin type. 751 40

We have investigated proteasome localization in synchronized cells using polyclonal anti-proteasome antibodies. Proteasomes were localized in the nucleus and cytoplasm at all phases of the cycle, but changes in localization were observed which explain the different immunofluorescence patterns found in asynchronous cells. In the nucleus, the intensity of staining in early S phase was low and showed a punctate distribution which changed to a more diffuse and intense labeling during S to G1. In the cytoplasm, proteasomes were concentrated in the perinuclear region at G1 and at the start of S phase and gradually moved towards the periphery of the cell as the cell cycle progressed to G2. No cell cycle-dependent changes were detected in the rate of synthesis or level of proteasomes. An apparent colocalization of proteasomes with elements of the cytoskeleton mainly observed in G2 was investigated further in PtK2 cells. The overall distribution of proteasomes and cell cycle-dependent changes in PtK2 cells were similar to those in L-132 cells. Double-label immunofluorescence studies using anti-proteasome and anti-cytokeratin (TROMA-1) antibodies showed that proteasomes do colocalize with intermediate filaments of the cytokeratin type, mainly during G2. In mitosis, proteasomes were found by immunogold electron microscopy to be localized around the chromosomes in both PtK2 and L-132 cells. Cell cycle-dependent changes in the localization of proteasomes suggest that they may have a regulatory function related to the cell cycle, for example, in the degradation of proteins which control its progression.
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PMID:Changes in proteasome localization during the cell cycle. 795 5

Prosomes constitute the multicatalytic proteinase (MCP) core of the 26S proteasomes, but were first observed as subcomplexes of untranslated mRNP; this suggests that they play a putative role in the control of protein biosynthesis in addition to their catabolic enzymatic function. In previous investigations it was shown that some prosomes colocalize with the intermediate filaments (IF) of the cytoskeleton, of the cytokeratin type in epithelial cells, and of the vimentin type in fibroblasts. Studies on adult rat muscle carried out with prosome-specific monoclonal antibodies (p-mAbs) have shown, surprisingly, that specific types of prosomes predominantly occupy a particular zone in between the M and the Z lines of the sarcomeric structure. The data presented here show that the subunit composition of prosomes changes when the dividing C2.7 myoblasts fuse into myotubes. We show furthermore that, in dividing C2.7 myoblasts, prosomes colocalize with the desmin network as well as with that of actin, in a distribution that changes with the subunit pattern of the prosomes investigated by individual p-mAbs. Surprisingly, when myogenic fusion is induced, specific types of prosomes move first to the nuclei; later on, they reappear in the cytoplasm. There, superimposing initially onto the reorganizing desmin filaments that run from one pole of the prefusion myoblast to the other, prosomes gradually colocalize with the actin fibers in the fusing myotubes, finally forming a "pearl on a string" pattern. These results are discussed in relation to parallel observations of prosome distribution between the actin and IF networks not only in epithelial cells but also in fusing muscle satellite cells, which made it possible to monitor the complete buildup of the sarcomeric structure.
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PMID:Prosome cytodistribution relative to desmin and actin filaments in dividing C2.7 myoblasts and during myotube formation in vitro. 918 80

Mallory bodies (MBs) are aggregates of proteins, principally cytokeratin proteins found in liver cells. They are also found in a few other cell types such as type II pneumocytes and trophoblasts. Studies on the liver thus far indicate that MBs are derived from hyperphosphorylated, heavily ubiquitinated proteins which have undergone conformational change. The aggregated protein may accumulate because of the failure of the proteasome to remove the altered proteins from the cytoplasm of liver cells. To investigate this possibility, the proteasomes were assessed immunohistochemically in individual liver cells of mice fed a drug which induced MB formation. To accelerate and enhance MB formation, cytochrome P450 2EI knockout mice were used. Proteasomes in individual cells were visualized by immunofluorescence using an antibody to a subunit of the proteasome (P25). The results showed that the groups of liver cells that had formed MBs were often partially depleted of proteasomes. These findings support the possibility that MBs formed as a result of the loss of the proteasome to remove misfolded cytokeratin proteins. Thus MBs may share their pathogenesis with other types of cellular inclusions seen where proteins aggregate in the cytoplasm due to mutation, misfolding, or loss of proteasomes.
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PMID:Mallory bodies formed in proteasome-depleted hepatocytes: an immunohistochemical study. 1117 Jul 86

Aggresome formation in cells involves the failure of the ubiquitin-proteasome pathway to dispose of proteins destined for degradation by the 26S proteasome. UBB(+1) is present in Mallory bodies in alcoholic liver disease and in aggresomes formed in Alzheimer's desease. The present investigation focuses on the role that UBB(+1) plays in cytokeratin aggresome formation in Mallory bodies (MBs) in vitro. Immunoprecipitation with a monoclonal antibody to cytokeratin-8 (CK-8) was used. The immunoprecipitate was incubated for 24 h in the presence of different constituents involved in aggresome formation including ubiquitin, UBB(+1), the proteasome inhibitor PS341, an ATP generating energy source, a deubiquitinating enzyme inhibitor, a purified proteasome fraction, and an E(1-3) conjugating enzyme fraction. MB-like protein aggregates formed in the presence of ubiquitin, plus UBB(+1) or PS341. These aggregates stained positively for CK-8. UBB(+1), and a proteasome subunit Tbp7, as demonstrated on Western blots. A second approach was used to form MBs in vitro in cultured hepatocytes transfected with UBB(+1) protein using Chariot. The cells were double stained using CK-8 and ubiquitin antibodies. The two proteins colocalized in MB-like aggregates. The results support the possibility that aggresome formation is a complex multifactor process, which is favored by inhibition of the proteasome and by the presence of UBB(+1).
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PMID:The mechanism of cytokeratin aggresome formation: the role of mutant ubiquitin (UBB+1). 1271 Sep 47

Mallory bodies (MBs) are aggresomes, composed of cytokeratin and various other proteins, which form in diseased liver because of disruption in the ubiquitin-proteasome protein degradation pathway. Heat shock proteins (hsp's) are thought to be involved in this process because it was discovered that MB formation is induced by heat shock in drug-primed mice. It has been reported that ubiquitin and a mutant form of ubiquitin (UBB(+1)) are found in aggresomes formed in the neurons in Alzheimer's disease and in the liver MBs in various liver diseases. In addition, hsp 70 has been found in aggresomes in Alzheimer's and in MBs in drug-primed mice. Therefore, we hypothesized that hsp's might be involved in MB formation in human liver diseases. Liver biopsy sections were double-stained using ubiquitin and hsp 70 or 90b antibodies. Both hsps 70 and 90b were found in MBs in all liver diseases investigated including primary billiary cirrhosis, nonalcoholic steatohepatitis, hepatitis B and C, idiopathic cirrhosis, alcoholic hepatitis, and hepatocellular carcinoma. Ubiquitin and the hsp's colocalized in all MBs in the diseased liver sections. These results indicate that hsp involvement in MB formation is similar to that seen in aggresome formation in other conformational diseases.
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PMID:Heat shock proteins are present in mallory bodies (cytokeratin aggresomes) in human liver biopsy specimens. 1271 Sep 48


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