Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P62988 (Ubiquitin)
 4,326 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ubiquitin, a 76-amino acid protein, is covalently attached to abnormal and short-lived proteins, thus marking them for ATP-dependent proteolysis in eukaryotic cells. Ubiquitin is found within the cytoplasm, nucleus, microvilli, autophagic vacuoles, and lysosomes. The ubiquitin-activating enzyme, E1, catalyzes the first step in ubiquitin conjugation. To date, very little is known about the subcellular distribution of this enzyme. We have utilized immunofluorescence and immunoblotting to examine the cellular distribution of E1 in several eukaryotic cell lines, including HeLa, smooth muscle A7r5, choriocarcinoma BeWo, Pt K1, and Chinese hamster ovary (CHO) E36. E1 was identified in both cytoplasmic and nuclear compartments in all cell lines examined. However, the relative abundance within these compartments differed markedly between the cell lines. Even within a single cell line, nuclear distribution was not uniform, and certain cells demonstrated an absence of nuclear staining. E1 resides predominantly within the nucleus in BeWo. In contrast, its distribution in CHO and Pt K1 cells is mainly cytoplasmic. Within the cytoplasm, three pools of E1 were identified by double-label immunofluorescence. The first of these colocalized with phalloidin, indicating association of E1 with actin filaments. A second cytoplasmic pool colocalized with tubulin and was predominantly perinuclear in its distribution. The third pool associated with intermediate filaments. This suggests that E1 is associated with all three components of the cytoskeleton. The distribution of E1 was unaltered in a mutant line of CHO E36 designated ts20, in which the E1 can be thermally inactivated. The variable distribution of E1 among cell lines, including its apparent cytoskeletal association, suggests pleiotropic functions of this enzyme and the ubiquitin-conjugating system.
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PMID:Immunofluorescent localization of the ubiquitin-activating enzyme, E1, to the nucleus and cytoskeleton. 843 Jul 76

The claw muscles of decapod crustaceans undergo a molt-induced atrophy to facilitate withdrawal of the claws at ecdysis. Polyubiquitin expression, as well as the levels of ubiquitin conjugates, a ubiquitin-conjugating enzyme involved in the ATP/ubiquitin-dependent proteolytic pathway (crustacean E2(16 kDa) homolog of Drosophila UbcD1), and proteasome, were examined to determine the role of ATP/ubiquitin-dependent proteolysis in the enhanced degradation of myofibrillar proteins during muscle atrophy. A partial-length clone (1.7 kb) of polyubiquitin was isolated from a lobster muscle cDNA library; the 5' end lacked the 5' untranslated region (UTR) and the beginning of the first ubiquitin monomer, while the 3' end contained the terminal ubiquitin monomer and 3' UTR. The deduced amino acid sequence was 100% identical with that from Manduca, Drosophila, and human. In land crab claw muscle, the polyubiquitin mRNA (2.7 kb) increased about 5-fold and ubiquitin-protein conjugates (> 200 kDa) increased about 8-fold during atrophy. In contrast, the level of a ubiquitin-conjugating enzyme (E2(16 kDa)) remained unchanged. The proteasome, which constitutes the catalytic core of the ATP/ubiquitin-dependent proteinase complex, increased about 2-fold during proecdysis, reaching its highest level immediately before ecdysis. These results suggest that the ATP/ubiquitin-dependent proteolytic pathway contributes to the changes in protein metabolism that occur during molt-induced muscle atrophy.
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PMID:Polyubiquitin in crustacean striated muscle: increased expression and conjugation during molt-induced claw muscle atrophy. 854 19

A novel member of the ubiquitin carrier protein family, designated E2EPF, has been cloned by our laboratory and expressed in a bacterial system in an active form. Ubiquitin carrier proteins, or E2s, catalyze one step in a multistep process that leads to the covalent conjugation of ubiquitin to substrate proteins. In this paper, we show that recombinant E2EPF catalyzes auto/multiubiquitination, the conjugation of multiple ubiquitin molecules to itself. Multiubiquitination has been shown previously to be required for targeting of a substrate protein for rapid degradation. Using a rabbit reticulocyte lysate system, E2EPF was shown to support the degradation of a model substrate in an ATP- and ubiquitin-dependent fashion. In contrast to a previous study which showed that selective protein degradation in one system is dependent upon multiubiquitination via the lysine 48 residue of ubiquitin, multiubiquitination, and proteolytic targeting by E2EPF was shown here to be independent of the lysine 48 multiubiquitin linkage. This functional characterization of E2EPF revealed a combination of features that distinguishes this enzyme from all previously characterized members of the ubiquitin carrier protein family. These results also suggest several possible autoregulatory models for E2EPF involving auto- and multiubiquitination.
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PMID:Characterization of a novel keratinocyte ubiquitin carrier protein. 857 60

The major mechanism for proteolysis in eucaryotes involves an ATP-dependent pathway for which the covalent attachment of ubiquitin targets proteins for degradation. The involvement of ubiquitin conjugation in early embryonic vertebrate development was investigated by examining the amounts and localization of ubiquitin conjugates at different stages of development in the chicken using an affinity-purified antibody specific for conjugated ubiquitin. Solid phase immunochemical assays measuring whole embryo pools of free and conjugated ubiquitin demonstrated a progressive increase in conjugate pools to stage 18, followed by a decline to stage 24. In contrast, levels of free polypeptide showed a dramatic increase after stage 5, indicating a change in the dynamics of the two pools during development. Immunohistochemistry revealed that the distribution of ubiquitin adducts between stages 3 and 22 was pronounced in regions undergoing extensive cellular remodeling. Ubiquitin conjugates were detected in the primitive streak where cells ingress during gastrulation. The presence of these degradative intermediates in both neuroectodermal cells of the neural folds and subsequent neural crest cells migrating from the dorsum of the neural tube is consistent with an involvement in key morphogenetic events. The localization of ubiquitin conjugates at other selected tissue interfaces including limb bud ectoderm/mesoderm, and cardiac atrioventricular myocardium/endothelium suggests an active role for ubiquitin-mediated protein modification in similar developmental interactions. Conjugates were distributed first between somites, then in myotomes with a pattern spatially identical that of the ubiquitin conjugating enzyme, E214K, the major cognate isozyme for isopeptide ligase (E3)-dependent degradation. The potential involvement of ubiquitin conjugation at sites of epithelial-mesenchymal associations was further analyzed in culture using atrioventricular canal (AV) endothelium. Immunoreactivity was abundant in cells immediately prior to and during their transformation into mesenchyme. Collectively, the specific temporal and spatial changes in ubiquitin conjugates during early vertebrate development suggest a regulatory role for this degradative pathway in the cellular remodeling accompanying embryonic growth and differentiation.
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PMID:Ubiquitin-protein conjugates selectively distribute during early chicken embryogenesis. 858 36

B16-F10 and B16-BL6 are B16 mouse melanoma sublines that preferentially metastasize to the lung following i.v. and s.c. injections, respectively. To study molecular mechanisms underlying the different metastatic behaviors exhibited by the B16 melanoma sublines, we performed differential hybridization of the genes transcribed in these cells and compared their expression levels. We isolated four genes that were highly expressed in B16-F10 cells but not in B16-BL6 cells: TI-225 (polyubiquitin), TI-229 (pyruvate kinase), TI-241 (LRF-1 homologue), and TI-227 (novel gene). Triosephosphate isomerase, 10-formyltetrahydrofolate dehydrogenase, tyrosinase-related protein 2, cytochrome c oxidase, ATP synthetase alpha subunit, RNA helicase, and ribosomal protein (L37, J1, acidic phosphoprotein), however, showed higher expression in B16-BL6 cells than in B16-F10 cells. Among these clones, transfection of TI-241 into the low metastatic clone F1 converted the parental cells from low- into high-metastatic cells. TI-241 may regulate the expression of various genes as a transcription factor in the complex process of metastasis.
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PMID:Identification of genes differentially expressed in B16 murine melanoma sublines with different metastatic potentials. 863 Oct 27

ATP-dependent proteolysis of 125I-labeled human alpha-globin, bovine alpha-lactalbumin, bovine serum albumin, or chicken lysozyme was assessed in a rabbit reticulocyte extract supplemented with ATP, excess ubiquitin, and variable amounts of ubiquitin aldehyde (Ubal), an inhibitor of many ubiquitin-protein isopeptidases. Low concentrations (0.8 microM) of Ubal increased the ATP-dependent degradation of 125I-alpha-globin by approximately 30% after 2 h at 37 degrees C, had little effect on 125I-lysozyme turnover, and decreased 125I-alpha-lactalbumin or 125I-albumin degradation by approximately 20%. The ATP-dependent degradation of all substrates was inhibited by high concentrations (> 3 microM) of Ubal throughout the incubation (15 min to 2 h); after 2 h, this inhibition ranged from 15% for 125I-alpha-globin to approximately 85% for 125I-alpha-lactalbumin and 125I-albumin. Levels of ubiquitin-125I-protein conjugates were increased significantly with Ubal; with > or = 8.0 microM Ubal, high molecular mass multiubiquitinated conjugates were particularly evident for 125I-alpha-globin and 125I-alpha-lactalbumin. These mixtures also accumulated ubiquitin conjugates with sizes expected for di- through pentaubiquitin oligomers. The results are consistent with the following proposed events: The ATP-dependent degradation of 125I-alpha-lactalbumin or 125I-albumin is probably mediated almost exclusively through polyubiquitinated intermediates. High Ubal concentrations inhibit an isopeptidase(s) which normally disassembles "unanchored" polyubiquitin chains that remain after substrate degradation by the 26S proteasome; these chains accumulate to inhibit further conjugate degradation. Much of the ATP-dependent degradation of 125I-alpha-globin and, to a lesser degree, 125I-lysozyme may occur through alternative structures where ubiquitin monomers or short oligomers are ligated to one or more substrate lysines. For 125I-alpha-globin, even low concentrations of Ubal effectively inhibit deubiquitination of these conjugates to enhance alpha-globin degradation.
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PMID:Differential effects of ubiquitin aldehyde on ubiquitin and ATP-dependent protein degradation. 871 81

We have investigated the genomic organization of Entamoeba histolytica ubiquitin and looked for the occurrence of a ubiquitin-conjugating system in this organism. Southern blots indicated the presence of > or = 5 ubiquitin-coding regions. One of these, EhUBI1, was cloned and sequenced and found to correspond to a monoubiquitin gene; as shown by a polymerase chain reaction, E. histolytica lacked polyubiquitin genes altogether. Blots of poly(A)+ RNA from exponentially-growing trophozoite cultures exhibited five ubiquitin transcripts, the most prominent and smallest of which corresponded to EhUBI1 mRNA. Expression of the ubiquitin genes was not influenced by heat shock. Although the predicted amino acid sequence of the ubiquitin from E. histolytica differs significantly (in 7-9 amino acid residues) from that of yeast and animals, expression of the coding sequence of EhUBI1 suppressed the heat-sensitive phenotype of a polyubiquitin gene-deficient yeast mutant. In correlation, trophozoite extract catalyzed an ATP-dependent conjugation of radioiodinated bovine ubiquitin to trophozoite proteins. The latter data indicate that E. histolytica contains a functional ubiquitin-conjugating system.
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PMID:Characterization of ubiquitin genes and -transcripts and demonstration of a ubiquitin-conjugating system in Entamoeba histolytica. 894 52

Ubiquitin (Ub) is a small 76-residue protein, involved in intracellular protein degradation through a specific ATP-dependent system, which uses Ub as a tag to label proteins committed to be hydrolyzed by a specific 26 S protease. PGP-9.5 is another important component of the Ub system, i.e. a neuron-specific carboxyl-terminal hydrolase, which recycles Ub from Ub-polypeptide complexes. We have investigated the expression of Ub and PGP-9.5 in rat hippocampal neurons in an early phase of reperfusion in a model of transient global brain ischemia/hypoxia (bilateral occlusion of common carotid arteries for 10 min accompanied by mild hypoxia-15% O2-for 20 min), by means of immunohistochemical methods using light and electron microscopy. The intensity of Ub and PGP-9.5 immunoreactivity was evaluated by image analysis. We have detected a marked increase of Ub immunoreactivity (UIR) in neurons of CA1, CA2, CA3, CA4, and dentate gyrus subfields 1 hr after ischemia/hypoxia (but not after hypoxia only), statistically significant as confirmed by image analysis. Such increase in immunoreactivity in ischemic/hypoxic rats was localized essentially in the nuclei of hippocampal neurons. There were no changes in PGP-9.5 immunoreactivity. The data suggest that in the present model of rat brain ischemia/hypoxia Ub is involved in the neuronal stress response.
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PMID:Ubiquitin-mediated stress response in a rat model of brain transient ischemia/hypoxia. 902 69

We have investigated three aspects of nucleotide usage by the 26S proteasome and its regulatory complex (RC). Both particles hydrolyze the four major ribonucleotides, but ATP and CTP have substantially lower Kms for hydrolysis than do GTP and UTP. The Km for ATP hydrolysis is 15 microm for the 26S proteasome and 30 microm for the regulatory complex. Formation of the 26S proteasome from the RC and the 20S proteasome requires about 5 microm ATP. Although measurable degradation of Ubiquitin(Ub)-lysozyme conjugates occurs in the presence of CTP, GTP, and UTP, the best nucleotide for Ub-conjugate degradation by the 26S proteasome is ATP, with an estimated Km of 12 microm. In summary, our studies show that micromolar concentrations of ATP are sufficient for several 26S proteasome activities.
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PMID:Effects of nucleotides on assembly of the 26S proteasome and degradation of ubiquitin conjugates. 922 75

Ubiquitin protein conjugates are commonly detected in neuronal brain inclusions of patients with neurodegenerative disorders. The failure to eliminate the ubiquitin-protein deposits in the degenerating neurons may result from changes in the activity of the ubiquitin/ATP-dependent proteolytic pathway. This proteolytic pathway plays a major role in the degradation of short lived, abnormal and denatured proteins. Cadmium is a potent cell poison and is known to affect the ubiquitin pathway and to cause oxidative stress. Increases in protein mixed-disulfides (Pr-SSG) and decreases in glutathione (GSH) are often used as markers of oxidative stress. To investigate the relationship between the ubiquitin pathway and cellular glutathione (GSH), we treated HT4 cells (a mouse neuronal cell line) and rat mesencephalic primary cultures with different concentrations of the heavy metal. We observed marked increases in Pr-SSG as well as decreases in GSH, after exposure of HT4 cells or primary mesencephalic cultures to Cd2+. Furthermore, our results show that Cd2+ induced the accumulation of ubiquitinated proteins. Detection was by Western blotting of total cell extracts probed with antibodies that recognize ubiquitin-protein conjugates. These results suggest that the ubiquitin-pathway is closely involved in the cell response to cadmium-mediated oxidative stress.
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PMID:Accumulation of ubiquitinated proteins in mouse neuronal cells induced by oxidative stress. 922 78


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