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)

Human immunodeficiency virus type-1 (HIV-1) integrase catalyzes the irreversible insertion of the viral genome into host chromosomal DNA. We have developed a mammalian expression system for the synthesis of authentic HIV-1 integrase in the absence of other viral proteins. Integrase, which bears a N-terminal phenylalanine, was found to be a short-lived protein in human embryo kidney 293T cells. The degradation of integrase could be suppressed by proteasome inhibitors. N-terminal phenylalanine is recognized as a degradation signal by a ubiquitin-proteasome proteolytic system known as the N-end rule pathway. The replacement of N-terminal phenylalanine with methionine, valine, or glycine, which are stabilizing residues in the N-end rule, resulted in metabolically stabilized integrase proteins (half-life of N-terminal Met-integrase was at least 3 h). Conversely, the substitution of N-terminal phenylalanine with other destabilizing residues retained the metabolic instability of integrase. These findings indicate that the HIV-1 integrase is a physiological substrate of the N-end rule. We discuss a possible functional similarity to the better understood turnover of the bacteriophage Mu transposase and functions of integrase instability to the maintenance and integrity of the host cell genome.
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PMID:Degradation of HIV-1 integrase by the N-end rule pathway. 1089 19

We have studied the effects of hyperoxia and of cell loading with artificial lipofuscin or ceroid pigment on the postmitotic aging of human lung fibroblast cell cultures. Normobaric hyperoxia (40% oxygen) caused an irreversible senescence-like growth arrest after about 4 wk and shortened postmitotic life span from 1-1/2 years down to 3 months. During the first 8 wk of hyperoxia-induced 'aging', overall protein degradation (breakdown of [(35)S]methionine metabolically radiolabeled cell proteins) increased somewhat, but by 12 wk and thereafter overall proteolysis was significantly depressed. In contrast, protein synthesis rates were unaffected by 12 wk of hyperoxia. Lysosomal cathepsin-specific activity (using the fluorogenic substrate z-FR-MCA) and cytoplasmic proteasome-specific activity (measured with suc-LLVY-MCA) both declined by 80% or more over 12 wk. Hyperoxia also caused a remarkable increase in lipofuscin/ceroid formation and accumulation over 12 wk, as judged by both fluorescence measurements and FACscan methods. To test whether the association between lipofuscin/ceroid accumulation and decreased proteolysis might be causal, we next exposed cells to lipofuscin/ceroid loading under normoxic conditions. Lipofuscin/ceroid-loaded cells indeed exhibited a gradual decrease in overall protein degradation over 4 wk of treatment, whereas protein synthesis was unaffected. Proteasome specific activity decreased by 25% over this period, which is important since proteasome is normally responsible for degrading oxidized cell proteins. In contrast, an apparent increase in lysosomal cathepsin activity was actually caused by a large increase in the number of lysosomes per cell. To test whether lipofuscin/ceroid could in fact directly inhibit proteasome activity, thus causing oxidized proteins to accumulate, we incubated purified proteasome with lipofuscin/ceroid preparations in vitro. We found that proteasome is directly inhibited by lipofuscin/ceroid. Our results indicate that an accumulation of oxidized proteins (and lipids) such as lipofuscin/ceroid may actually cause further increases in damage accumulation during aging by inhibiting the proteasome.
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PMID:Proteasome inhibition by lipofuscin/ceroid during postmitotic aging of fibroblasts. 1092 83

We have investigated the mechanisms that target oxidized calmodulin for degradation by the proteasome. After methionine oxidation within calmodulin, rates of degradation by the 20 S proteasome are substantially enhanced. Mass spectrometry was used to identify the time course of the proteolytic fragments released from the proteasome. Oxidized calmodulin is initially degraded into large proteolytic fragments that are released from the proteasome and subsequently degraded into small peptides that vary in size from 6 to 12 amino acids. To investigate the molecular determinants that result in the selective degradation of oxidized calmodulin, we used circular dichroism and fluorescence spectroscopy to assess oxidant-induced structural changes. There is a linear correlation between decreases in secondary structure and the rate of degradation. Calcium binding or the repair of oxidized calmodulin by methionine sulfoxide reductase induces comparable changes in alpha-helical content and rates of degradation. In contrast, alterations in the surface hydrophobicity of oxidized calmodulin do not alter the rate of degradation by the proteasome, indicating that changes in surface hydrophobicity do not necessarily lead to enhanced proteolytic susceptibility. These results suggest that decreases in secondary structure expose proteolytically sensitive sites in oxidized calmodulin that are cleaved by the proteasome in a nonprocessive manner.
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PMID:Selective degradation of oxidized calmodulin by the 20 S proteasome. 1101 Sep 65

This study investigated the mechanism of agonist-induced opioid receptor down-regulation. Incubation of HEK 293 cells expressing FLAG-tagged delta and mu receptors with agonists caused a time-dependent decrease in opioid receptor levels assayed by immunoblotting. Pulse-chase experiments using [(35)S]methionine metabolic labeling indicated that the turnover rate of delta receptors was accelerated 5-fold following agonist stimulation. Inactivation of functional G(i) and G(o) proteins by pertussis toxin-attenuated down-regulation of the mu opioid receptor, while down-regulation of the delta opioid receptor was unaffected. Pretreatment of cells with inhibitors of lysosomal proteases, calpain, and caspases had little effect on mu and delta opioid receptor down-regulation. In marked contrast, pretreatment with proteasome inhibitors attenuated agonist-induced mu and delta receptor down-regulation. In addition, incubation of cells with proteasome inhibitors in the absence of agonists increased steady-state mu and delta opioid receptor levels. Immunoprecipitation of mu and delta opioid receptors followed by immunoblotting with ubiquitin antibodies suggested that preincubation with proteasome inhibitors promoted accumulation of polyubiquitinated receptors. These data provide evidence that the ubiquitin/proteasome pathway plays a role in agonist-induced down-regulation and basal turnover of opioid receptors.
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PMID:Proteasome involvement in agonist-induced down-regulation of mu and delta opioid receptors. 1115 77

We describe a method that has allowed us to measure the synthesis, turnover and assembly of alpha- and beta-erythroid and nonerythroid spectrins in cultured rat hippocampal neurons. For these studies, rat hippocampal cultures containing 74.5-83.0% neurons were established. B-27 (Gibco) supplement has been used to obtain an excellent long-term viability (up to 5 weeks) of hippocampal neurons in culture. For the synthesis, turnover, and assembly experiments the neurons were labeled with [35S]methionine, and chased with 10-fold excess of cold methionine for the turnover experiments. The cells were then lysed and immunoprecipitated with alpha, beta-erythroid, alpha, and beta-nonerythroid spectrin antibodies. Immunoprecipitated [35S]methionine-labeled spectrins of hippocampal neurons grown in vitro produced bands in 5% polyacrylamide minigels strong enough to be detected by the high sensitivity screens of a phosphorimager to generate graphs from which the synthesis or half-lives of alpha, beta-erythroid, alpha, and beta-nonerythroid spectrins were calculated. This method can be used to study the role of calpain, caspase-3, and the ubiquitin-proteasome system on the synthesis and turnover of erythroid and nonerythroid spectrins in resting and depolarized rat hippocampal neurons in culture.
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PMID:Measurement of the synthesis, turnover, and assembly of alpha- and beta-erythroid and nonerythroid spectrins in cultured rat hippocampal neurons. 1122 13

Aquaporin-1 (AQP1) water channel protein expression is increased by hypertonic stress. The contribution of changes in protein stability to hypertonic induction of AQP1 have not been described. Incubation of BALB/c fibroblasts spontaneously expressing AQP1 with proteasome inhibitors increased AQP1 expression, suggesting basal proteasome-dependent degradation of the protein. Degradation by the proteasome is thought to be triggered by polyubiquitination of a target protein. To determine whether AQP1 is ubiquitinated, immunoprecipitation with anti-AQP1 antibodies was performed, and the resultant samples were probed by protein immunoblot for the presence of ubiquitin. Immunoblots demonstrated ubiquitination of AQP1 under control conditions that increased after treatment with proteasome inhibitors (MG132, lactacystin). Exposure of cells to hypertonic medium for as little as 4 h decreased ubiquitination of AQP1, an effect that persisted through 24 h in hypertonic medium. Using metabolic labeling with [(35)S]methionine, the half-life of AQP1 protein under isotonic conditions was found to be <4 h. AQP1 protein half-life was markedly increased by exposure of cells to hypertonic medium. These observations provide evidence that aquaporins are a target for ubiquitination and proteasome-dependent degradation. Additionally, these studies demonstrate that reduced protein ubiquitination and increased protein stability lead to increased levels of AQP1 expression during hypertonic stress.
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PMID:Altered ubiquitination and stability of aquaporin-1 in hypertonic stress. 1122 37

The proteasome is a large protease complex consisting of multiple catalytic subunits that function simultaneously to digest protein substrates. This complexity has made deciphering the role each subunit plays in the generation of specific protein fragments difficult. Positional scanning libraries of peptide vinyl sulfones were generated in which the amino acid located directly at the site of hydrolysis (P1 residue) was held constant and sequences distal to that residue (P2, P3, and P4 positions) were varied across all natural amino acids (except cysteine and methionine). Binding information for each of the individual catalytic subunits was obtained for each library under a variety of different conditions. The resulting specificity profiles indicated that substrate positions distal to P1 are critical for directing substrates to active subunits in the complex. Furthermore, specificity profiles of IFN-gamma-regulated subunits closely matched those of their noninducible counterparts, suggesting that subunit swapping may modulate substrate processing by a mechanism that does require a change in the primary sequence specificity of individual catalytic subunits in the complex. Finally, specificity profiles were used to design specific inhibitors of a single active site in the complex. These reagents can be used to further establish the role of each subunit in substrate processing by the proteasome.
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PMID:Global analysis of proteasomal substrate specificity using positional-scanning libraries of covalent inhibitors. 1124 15

1DNA topoisomerase II (topo II) is a nuclear enzyme that modifies DNA topology and also serves as a target to mediate the cytotoxicity of several antineoplastic agents. Several reports have demonstrated that a reduction of topo II is associated with reduced sensitivity to these agents. Topo II exists as two isoforms in mammalian cells: topo IIalpha and topo IIbeta. In MCF-7 cells, the half-life (mean +/- SEM) values of topo IIalpha and topo IIbeta in situ were 6.6 +/- 0.3 and 17.6 +/- 2.3 hr, respectively, as determined by [(35)S]methionine/cysteine pulse-chase analysis. Degradation of topo IIalpha in situ was abrogated by the presence of proteasome inhibitors, and the relative activities were carbobenzoxy-leucyl-leucyl-leucinal (MG132) > carbobenzoxy-leucyl-leucyl-norvalinal (MG115) > ALLN congruent with lactacystin. ATP-dependent degradation of topo IIalpha, but not topo IIbeta, was observed in extracts of asynchronously dividing HeLa and MCF-7 cells. Furthermore, degradation of topo IIalpha was abrogated by the proteasome inhibitors MG132 and MG115, but not by lactacystin, in extracts of asynchronously dividing MCF-7 cells. Finally, degradation of topo IIalpha, but not topo IIbeta, was observed to occur in a cell cycle-dependent fashion, in extracts of synchronized HeLa cells, with maximal loss of the alpha isoform occurring 2 hr after release from mitotic arrest. This degradation of topo IIalpha appeared to be facilitated by an ATP-dependent activity. Furthermore, high molecular weight bands (>200 kDa), which may represent polyubiquitinated-topo IIalpha conjugates, were also detected in extracts of synchronized HeLa cells. This study provides evidence for a role of the ubiquitin-proteasome pathway in the cell cycle-dependent regulation of topo IIalpha expression.
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PMID:Role of proteasomal degradation in the cell cycle-dependent regulation of DNA topoisomerase IIalpha expression. 1127 64

The proteasome inhibitors lactacystin, clastro lactacystin beta-lactone, or tri-leucine vinyl sulfone (NLVS), in the presence of [(35)S]cysteine/methionine, caused increased incorporation of (35)S into cellular proteins, even when protein synthesis was inhibited by cycloheximide. This effect was blocked by incubation with the glutathione synthesis inhibitor buthionine sulfoximine. Proteasome inhibitors also enhanced total glutathione levels, increased reduced/oxidized glutathione ratio (GSH/GSSG) and upregulated gamma-glutamylcysteine synthetase (rate-limiting in glutathione synthesis). Micromolar concentrations of GSH, GSSG, or cysteine stimulated the chymotrypsin-like activity of purified 20S proteasome, but millimolar GSH or GSSG was inhibitory. Interestingly, GSH did not affect 20S proteasome's trypsin-like activity. Enhanced proteasome glutathiolation was verified when purified preparations of the 20S core enzyme complex were incubated with [(35)S]GSH after pre-incubation with any of the inhibitors. NLVS, lactacystin or clastro lactacystin beta-lactone may promote structural modification of the 20S core proteasome, with increased exposure of cysteine residues, which are prone to S-thiolation. Three main conclusions can be drawn from the present work. First, proteasome inhibitors alter cellular glutathione metabolism. Second, proteasome glutathiolation is enhanced by inhibitors but still occurs in their absence, at physiological GSH and GSSG levels. Third, proteasome glutathiolation seems to be a previously unknown mechanism of proteasome regulation in vivo.
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PMID:Glutathiolation of the proteasome is enhanced by proteolytic inhibitors. 1133 15

The ligand-dependent degradation of activated tyrosine kinase receptors provides a means by which mitogenic signalling can be attenuated. In many cell types the ligand-dependent degradation of the tyrosine kinase receptor Met is completely dependent on the activity of the 26S proteasome (Jeffers et al., 1997b). We now show that degradation also requires trafficking to late endosomal compartments and the activity of acid dependent proteases as determined by the effects of a dominant negative form of dynamin (K44A) and a vacuolar-ATPase inhibitor, concanamycin. We show that in the presence of the proteasome inhibitor lactacystin, Met fails to redistribute from the plasma membrane to intracellular compartments. This observation is most consistent with the interpretation that proteasome activity is required for Met internalization and only indirectly for its degradation.
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PMID:Down-regulation of MET, the receptor for hepatocyte growth factor. 1142 Jun 88


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