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)

The effects of two proteasome inhibitors on neurite outgrowth from PC12h cells were investigated in terms of the mean length of the neurites and the frequency of occurrence of cells with long neurites. Benzyloxycarbonyl-leucyl-leucyl-leucinal (ZLLLal) and benzyloxycarbonyl-isoleucyl-t-butyl-glutamyl-leucinal (PSI) caused a significant elongation of PC12h cell neurites. Since ZLLLal is known to inhibit both calpain and proteasome activity, we examined the effects ofbenzyloxycarbonyl-leucyl-leucinal (ZLLal) which inhibits calpain activity to the same degree as ZLLLal, but which inhibits proteasome activity only weakly. ZLLal did not induce the significant elongation of neurites at any of the concentrations we studied. These results show that the inhibition of proteasome activity causes neurite elongation. We also quantified subcellular levels of multi-ubiquitin chains and free ubiquitin after treatments with PSI, ZLLLal and ZLLal. Treatment with ZLLal had no effects on levels of water- and urea-soluble multi-ubiquitin chains or of free ubiquitin either in the nucleus or in the cytoplasm. PSI and ZLLLal induced a large accumulation of water- and urea-soluble multi-ubiquitin chains and free ubiquitin in the nucleus. Similarly, PSI and ZLLLal increased cytoplasmic levels of urea-soluble multi-ubiquitin chains. On the contrary, PSI and ZLLLal had no effect on levels of water-soluble multi-ubiquitin chains or free ubiquitin in the cytoplasm. This is the first study to demonstrate subcellular differences in the accumulation of multi-ubiquitin chains and free ubiquitin during the neurite elongation induced by proteasome inhibitors.
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PMID:Proteasome inhibitors which induce neurite outgrowth from PC12h cells cause different subcellular accumulations of multi-ubiquitin chains. 981 55

Numerous mutations causing early onset Alzheimer's disease have been identified in the presenilin (PS) genes, particularly the PS1 gene. Like the mutations identified within the beta-amyloid precursor protein gene, PS mutations cause the increased generation of a highly neurotoxic variant of amyloid beta-peptide. PS proteins are proteolytically processed to an N-terminal approximately 30-kDa (NTF) and a C-terminal approximately 20-kDa fragment (CTF20) that form a heterodimeric complex. We demonstrate that this complex is resistant to proteolytic degradation, whereas the full-length precursor is rapidly degraded. Degradation of the PS1 holoprotein is sensitive to inhibitors of the proteasome. Formation of a heterodimeric complex is required for the stability of both PS1 fragments, since fragments that do not co-immunoprecipitate with the PS complex are rapidly degraded by the proteasome. Mutant PS fragments not incorporated into the heterodimeric complex lose their pathological activity in abnormal amyloid beta-peptide generation even after inhibition of their proteolytic degradation. The PS1 heterodimeric complex can be attacked by proteinases of the caspase superfamily that generate an approximately 10-kDa proteolytic fragment (CTF10) from CTF20. CTF10 is rapidly degraded most likely by a calpain-like cysteine proteinase. From these data we conclude that PS1 metabolism is highly controlled by multiple proteolytic activities indicating that subtle changes in fragment generation/degradation might be important for Alzheimer's disease-associated pathology.
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PMID:Expression of Alzheimer's disease-associated presenilin-1 is controlled by proteolytic degradation and complex formation. 982 12

A major problem in assessing the role of calpains in apoptosis induction concerns the fact that calpain inhibitors can also impair the activity of the proteasome, also reported to be involved in apoptosis. Herein we showed that apoptosis induced by calphostin C in U937 human promonocytic leukemia cells was associated, at its onset, with enhanced protein (poly)ubiquitination. This observation prompted us to study whether protein degradation through the ubiquitin/proteasome pathway was involved in apoptosis induction. We found that N-acetyl-Leu-Leu-norleucinal (50 microM), a proteasome as well as a calpain inhibitor, was able to reduce calphostin C-induced apoptosis by approximately 60%, whereas lactacystin (10 microM), a specific proteasome inhibitor, was ineffective. These results suggest that calphostin C-induced apoptosis is partly calpain-mediated, but does not require protein degradation through the ubiquitin/proteasome pathway.
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PMID:Calpain involvement in calphostin C-induced apoptosis. 982 82

The cytokine tumor necrosis factor alpha (TNF-alpha) induces expression of inflammatory gene networks by activating cytoplasmic to nuclear translocation of the nuclear factor-kappaB (NF-kappaB) transcription factor. NF-kappaB activation results from sequential phosphorylation and hydrolysis of the cytoplasmic inhibitor, IkappaBalpha, through the 26 S proteasome. Here, we show a parallel proteasome-independent pathway for cytokine-inducible IkappaBalpha proteolysis in HepG2 liver cells mediated by cytosolic calcium-activated neutral protease (calpains). Pretreatment with either calpain- or proteasome-selective inhibitors partially blocks up to 50% of TNF-alpha-inducible IkappaBalpha proteolysis; pretreatment with both is required to completely block IkappaBalpha proteolysis. Similarly, in transient cotransfection assays, expression of the specific inhibitor, calpastatin, partially blocks TNF-alpha-inducible NF-kappaB-dependent promoter activity and IkappaBalpha proteolysis. In TNF-alpha-stimulated cells, a rapid (within 1 min), 2.2-fold increase in cytosolic calpain proteolytic activity is measured using a specific fluorescent assay. Inducible calpain proteolytic activity occurs coincidentally with the particulate-to-cytosol redistribution of the catalytic m-calpain subunit into the IkappaBalpha compartment. Addition of catalytically active m-calpain into broken cells was sufficient to produce ligand-independent IkappaBalpha proteolysis and NF-kappaB translocation. As additional evidence for calpain-dependent IkappaBalpha proteolysis and NF-kappaB activation, we demonstrate that this process occurs in a cell line (ts20b) deficient in the ubiquitin-proteasome pathway. Following inactivation of the temperature-sensitive ubiquitin-activating enzyme, IkappaBalpha proteolysis occurs in a manner sensitive only to calpain inhibitors. Our results demonstrate that TNF-alpha activates cytosolic calpains, a parallel pathway that degrades IkappaBalpha and activates NF-kappaB activation independently of the ubiquitin-proteasome pathway.
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PMID:Tumor necrosis factor-alpha-inducible IkappaBalpha proteolysis mediated by cytosolic m-calpain. A mechanism parallel to the ubiquitin-proteasome pathway for nuclear factor-kappab activation. 987 17

The average polymorphonuclear neutrophil (PMN) lives only a day and then dies by apoptosis. We previously found that the calcium-dependent protease calpain is required for apoptosis in several mouse models of cell death. Here we identify calpain, and its endogenous inhibitor calpastatin, as regulators of human neutrophil apoptosis. Cell death triggered by the translation inhibitor cycloheximide is calpain-dependent, as evidenced using either a calpain active site inhibitor (N-acetyl-leucyl-leucyl-norleucinal) or agents that target calpain's calcium binding sites (PD150606, PD151746). No significant effect on cycloheximide-triggered apoptosis was found by using inhibitors of the proteasome or of other papain-like cysteine proteases, providing further evidence that the active site calpain inhibitor prevents apoptosis via its action on calpain. In addition, we find that potentiation of calpain activity by depleting its endogenous inhibitor, calpastatin, is sufficient to cause apoptosis of neutrophils. Nevertheless, apoptosis signalled via the Fas antigen proceeds regardless of the presence of calpain inhibitor. These experiments support a growing body of work, indicating an upstream regulatory role for calpain in many, but not all, forms of apoptotic cell death. They also identify calpastatin as a participant in apoptotic cell death and suggest that for at least one cell type, a decrease in calpastatin is a sufficient stimulus to initiate calpain-dependent apoptosis.
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PMID:Calpain and calpastatin regulate neutrophil apoptosis. 998 77

The retinoblastoma protein plays a critical role in regulating the G1/S transition. Less is known about the function and regulation of the homologous pocket protein p107. Here we present evidence for the posttranslational regulation of p107 by the Ca2+-activated protease calpain. Three negative growth regulators, the HMG-CoA reductase inhibitor lovastatin, the antimetabolite 5-fluorouracil, and the cyclic nucleotide dibutyryl cAMP were found to induce cell type-specific loss of p107 protein which was reversible by the calpain inhibitor leucyl-leucyl-norleucinal but not by the serine protease inhibitor phenylmethylsulfonylfluoride, caspase inhibitors, or lactacystin, a specific inhibitor of the 26S proteasome. Purified calpain induced Ca2+-dependent p107 degradation in cell lysates. Transient expression of the specific calpain inhibitor calpastatin blocked the loss of p107 protein in lovastatin-treated cells, and the half-life of p107 was markedly lengthened in lovastatian-treated cells stably transfected with a calpastatin expression vector versus cells transfected with vector alone. The data presented here demonstrate down-regulation of p107 protein in response to various antiproliferative signals, and implicate calpain in p107 posttranslational regulation.
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PMID:Posttranslational regulation of the retinoblastoma gene family member p107 by calpain protease. 1008 33

Cyclin-dependent kinase inhibitory proteins are negative regulators of the cell cycle. Although all the cyclin-dependent kinase inhibitory proteins may be involved in cell cycle control during a differentiation process, only p57(Kip2) is shown to be essential for embryonic development. However, the role of p57 in the control of the cell cycle is poorly understood. Using osteoblasts derived from the calvaria of rat fetus, we show that p57 is accumulated in cells starved by low serum. Cyclin-dependent kinase 2 activity was suppressed in these cells with a significant amount bound to p57. Treatment of the cells with transforming growth factor beta1 dramatically reduced the amount of p57, resulting in an activation of cyclin-dependent kinase 2 activity and the stimulation of cell proliferation. The decrease in p57 was inhibited by treating the cells with proteasome inhibitors, Z-Leu-Leu-Leu-aldehyde or lactacystin, but not with Z-Leu-Leu-aldehyde, which is an inhibitor of calpain, indicating that p57 is degraded through the proteasome pathway. p57 was also shown to be ubiquitinated in vitro. Because transforming growth factor beta1 not only stimulates the growth but also inhibits the differentiation of the cells in this system, our results may suggest a possible involvement of p57 in the control of osteoblastic cell proliferation and differentiation.
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PMID:p57(Kip2) is degraded through the proteasome in osteoblasts stimulated to proliferation by transforming growth factor beta1. 1021 82

In MCF-7 breast cancer cells, estradiol (E2) and pure antiestrogen RU 58668 down-regulate the estrogen receptor (ER). Interestingly, the protein synthesis inhibitor cycloheximide (CHX) abrogated solely the effect of E2 suggesting a selective difference in the degradation of the receptor induced by estrogenic and antiestrogenic stimulations. A panel of lysosome inhibitors (i.e. bafilomycin, chloroquine, NH4Cl, and monensin), calpain inhibitors (calpastatin and PD 150606) and proteasome inhibitors (lactacystin and proteasome inhibitor I) were tested to assess this hypothesis. Among all inhibitors tested, lactacystin and proteasome inhibitor I were the sole inhibitors to abrogate the elimination of the receptor induced by both E2 and RU 58668; this selective effect was also recorded in cells prelabeled with [3H]tamoxifen aziridine before exposure to these ligands. Hence, differential sensitivity to CHX seems to be linked to the different mechanisms which target proteins for proteasome-mediated destruction. Moreover, the two tested proteasome inhibitors produced a slight increase of ER concentration in cells not exposed to any ligand, suggesting also the involvement of proteasome in receptor turnover.
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PMID:Implication of proteasome in estrogen receptor degradation. 1021 32

Here we examine a cell death process induced by reactive oxygen species (ROS) in the haemoflagellate Trypanosoma brucei brucei. Ca2+ distribution in cellular compartments was measured with stable transformants expressing aequorin targeted to the cytosol, nucleus or mitochondrion. Within 1.5 h of ROS production, mitochondrial Ca2+ transport was impaired and the Ca2+ barrier between the nuclear envelope and cytosol was disrupted. Consequently the mitochondrion did not accumulate Ca2+ efficiently in response to an extracellular stimulus, and excess Ca2+ accumulated in the nucleus. The terminal transferase deoxytidyl uridine end labelling assay revealed that, 5 h after treatment with ROS, extensive fragmentation of nuclear DNA occurred in over 90% of the cells. Permeability changes in the plasma membrane did not occur until an additional 2 h had elapsed. The intracellular Ca2+ buffer, EGTA acetoxymethyl ester, prevented DNA fragmentation and prolonged the onset of changes in cell permeability. Despite some similarities to apoptosis, nuclease activation was not a consequence of caspase 3, caspase 1, calpain, serine protease, cysteine protease or proteasome activity. Moreover, trypanosomes expressing mouse Bcl-2 were not protected from ROS even though protection from mitochondrial dysfunction and ROS have been reported for mammalian cells. Overall, these results demonstrate that Ca2+ pathways can induce pathology in trypanosomes, although the specific proteins involved might be distinct from those in metazoans.
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PMID:Reactive oxygen species activate a Ca2+-dependent cell death pathway in the unicellular organism Trypanosoma brucei brucei. 1022 56

Several lines of evidence suggest that the ubiquitin-proteasome pathway is involved in sepsis-induced muscle catabolism. The gene expression of ubiquitin and several of the proteasome subunits was increased in muscle from both septic rats and patients. In other studies, the activity of isolated 20S proteasomes was stimulated in septic muscles. Sepsis-induced increase in muscle total and myofibrillar protein breakdown was inhibited with specific proteasome blockers. Although the ubiquitin-proteasome pathway is upregulated in septic muscle, it is still unclear how the myofibrillar proteins actin and myosin are ubiquitinated and become substrates for the 26S proteasome. Recent studies suggest that a calcium-dependent, calpain-mediated process releases myofilaments from the Z-disks during sepsis. It is possible that this process exposes destabilizing N-terminal residues on actin and myosin, making them suitable substrates for the N-end rule pathway involving the 14 kD ubiquitin-conjugating enzyme E214k and the ubiquitin-protein ligase E3alpha.
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PMID:Role of the ubiquitin-proteasome pathway in sepsis-induced muscle catabolism. 1036 50


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