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: UNIPROT:P62988 (Ubiquitin)
4,326 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Young sympathetic neurons die when deprived of nerve growth factor (NGF). Under such circumstances, cell death is appropriate to the developing nervous system and requires RNA and protein synthesis. We have hypothesized the existence of an endogenous death program within neurons that is suppressed by trophic factors. The extent and timing of required changes in the synthetic events that comprise the death program are unknown. In an effort to characterize the biochemical events that mediate the death program further, we performed several experiments on embryonic rat sympathetic neurons in vitro. The death program was blocked with cycloheximide when total protein synthesis was inhibited > or = 80%. When protein synthesis was inhibited within 22 +/- 4 h of NGF deprivation, death was prevented in half the neurons. Hence, we define the commitment point for protein synthesis to be 22 +/- 4 h. Analogously, the commitment point for RNA synthesis was 26 +/- 4 h and that for NGF rescue, 24 +/- 4 h. We tested the ability of a wide variety of chemicals to interfere with the death program. Most compounds tested were unable to prevent neuronal death. Some treatments, however, did save NGF-deprived neurons and were subsequently characterized. These included ultraviolet light and agents that raise intracellular concentrations of cAMP. Finally, we looked for the neuronal expression in vitro and in vivo of genes that have been associated with programmed death in other cell types, including TRPM-2/SGP-2, polyubiquitin, TGF beta-1, c-fos, and c-myc. None of these genes showed significant activation associated with neuronal death.
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PMID:Biochemical characterization of programmed cell death in NGF-deprived sympathetic neurons. 133 32

Selective neuronal death is a normal component of metamorphosis in the moth, Manduca sexta. In particular, the three unfused abdominal ganglia of the ventral nerve cord serve as a useful experimental preparation in which to study the regulation of the molecular mechanisms that mediate programmed cell death. Ubiquitin, a highly conserved 76-amino acid protein found in all eukaryotic cells, has previously been shown to be present in increased amounts in some tissues undergoing programmed cell death (e.g., larval intersegmental muscles in Manduca sexta moths, dying cells in developing tunicates), but not in others (T-cells, Drosophila ommatidial cells, cultured sympathetic neurons deprived of nerve growth factor). It has been hypothesized that the need for ubiquitin-dependent proteolysis is increased in dying cells, and that the accumulation of ubiquitin might serve as an early marker for cells committed to die. Immunohistochemical localization of ubiquitin at the light microscopic level in the abdominal ganglia of Manduca sexta suggests that this protein plays a number of important roles in neuronal physiology and may be associated with the death of some neurons in this tissue. The most intense staining of neuronal cytoplasm, however, was found not in dying neurons, but instead in sets of persisting neurons that may serve a primarily neurosecretory or neuromodulatory function. The staining obtained in these cells with antibodies directed against ubiquitin was developmentally regulated.
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PMID:Localization of immunoreactive ubiquitin in the nervous system of the Manduca sexta moth. 751 66

Ubiquitin and ubiquitin-protein conjugates in PC12h cells were detected with in vitro [125I]ubiquitination, and quantified by immunoblotting. These levels were altered by nerve growth factor (NGF), which promotes neuronal differentiation. (i) Levels of high molecular weight (HMW) ubiquitin-protein conjugates ranging from 40 to 1,000 kDa were increased by 2 days of NGF treatment, and remained high up to 10 days of NGF treatment. (ii) Ubiquitin and a 23-kDa conjugate tended to be decreased from days 2 to 10 of NGF treatment. 10-Day culture with 10 nM staurosporine, n protein kinase inhibitor, that blocks NGF-induced neurite outgrowth suppressed the NGF-induced increases in levels of HMW conjugates. Cyclic AMP and forskolin, both of which promote neurite outgrowth, mimicked the NGF-induced changes in ubiquitin and HMW conjugates, but phorbol ester and epidermal growth factor had little effect. These findings suggest that changes in ubiquitin-protein conjugates are closely coupled with neuronal differentiation.
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PMID:Ubiquitin and ubiquitin-protein conjugates in PC12h cells: changes during neuronal differentiation. 806 95

Changes in Ubiquitin-immunoreactivity after nerve growth factor (NGF) treatment were investigated in PC12h cells. Ubiquitin-immunoreactivity was increased in the nucleus of NGF-treated cells. The quantitative analysis revealed that, after 7 days of NGF treatment, almost 20% of cells had ubiquitin-immunoreactive nuclei and the frequency was increased thereafter. Levels of free ubiquitin and multi-ubiquitin chains were measured by radioimmunoassay (RIA) and enzyme-linked immunosorbent assay (ELISA), respectively. Measurements were carried out for four subcellular fractions: urea- and water-soluble extracts of nuclei and cytoplasm. Decrease in free ubiquitin was observed in water-soluble cytoplasmic extracts of NGF-treated cells, though increase in multi-ubiquitin chains in the same fraction was not observed. As for nuclei, increase in multi-ubiquitin chains and concomitant decrease in free ubiquitin were found in the water-soluble extracts after NGF treatment. Levels of multi-ubiquitin chains did not change in urea-soluble cytoplasmic extracts as well as nuclear urea-soluble ones after NGF treatment. These results indicated that multi-ubiquitination of nuclear proteins is increased during NGF-induced neuronal differentiation of PC12h cells.
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PMID:Nerve growth factor (NGF) induces increase in multi-ubiquitin chains and concomitant decrease in free ubiquitin in nuclei of PC12h. 900 73

NF-kappaB transcription factors have key roles in inflammation, immune response, oncogenesis and protection against apoptosis. In most cells, these factors are kept inactive in the cytoplasm through association with IkappaB inhibitors. After stimulation by various reagents, IkappaB is phosphorylated by the IkappaB kinase (IKK) complex and degraded by the proteasome, allowing NF-kappaB to translocate to the nucleus and activate its target genes. Here we report that CYLD, a tumour suppressor that is mutated in familial cylindromatosis, interacts with NEMO, the regulatory subunit of IKK. CYLD also interacts directly with tumour-necrosis factor receptor (TNFR)-associated factor 2 (TRAF2), an adaptor molecule involved in signalling by members of the family of TNF/nerve growth factor receptors. CYLD has deubiquitinating activity that is directed towards non-K48-linked polyubiquitin chains, and negatively modulates TRAF-mediated activation of IKK, strengthening the notion that ubiquitination is involved in IKK activation by TRAFs and suggesting that CYLD functions in this process. Truncations of CYLD found in cylindromatosis result in reduced enzymatic activity, indicating a link between impaired deubiquitination of CYLD substrates and human pathophysiology.
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PMID:The tumour suppressor CYLD negatively regulates NF-kappaB signalling by deubiquitination. 1291 71

We have investigated the role of the mitochondrial pathway during cell death following serum and nerve growth factor (NGF)/dibutyryl cyclic AMP (Bt(2)cAMP) withdrawal in undifferentiated or NGF/Bt(2)cAMP-differentiated PC12 cells, respectively. Holocytochrome c, Smac/DIABLO, and Omi/HtrA2 are released rapidly following trophic factor deprivation in PC12 cells. Bcl-2 and Akt inhibited this release. The protection, however, persisted longer in differentiated PC12 cells. In differentiated, but not undifferentiated cells, Bcl-2 and Akt also inhibited apoptosis downstream of holocytochrome c release. Thus, undifferentiated PC12 cells showed marked sensitivity to induction of apoptosis by microinjected cytochrome c even in the presence of NGF, Bcl-2, or Akt. In contrast, in differentiated cells these factors suppressed cell death. Consistent with these observations, in vitro processing of procaspase 9 in response to cytochrome c was observed in extracts from undifferentiated but not differentiated cells expressing Akt or Bcl-2. Endogenous caspase 9 was cleaved during cell death, whereas dominant negative caspase 9 inhibited cell death. The results from determining the role of inhibitors of apoptosis (IAPs) suggest that acquisition of inhibition by IAPs is part of the differentiation program. Ubiquitin-DeltaN-AVPI Smac/DIABLO induced cell death in differentiated cells only. c-IAP-2 is unregulated in differentiated cells, whereas X-linked IAP levels decreased in these cells coincident with cell death. Moreover, expressing X-linked IAP rendered undifferentiated cells resistant to microinjected cytochrome c. Overall, the inhibitory regulation, of cell death at the level of release of mitochondrial apoptogenic factors and at post-mitochondrial activation of caspase 9 observed in differentiated PC12 cells, is reduced or absent in the undifferentiated counterparts.
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PMID:Differentiation-dependent sensitivity to apoptogenic factors in PC12 cells. 1513 27

Sequestosome 1/p62 is a scaffolding protein with several interaction modules that include a PB1 dimerization domain, a TRAF6 (tumor necrosis factor receptor-associated factor 6) binding site, and a ubiquitin-associating (UBA) domain. Here, we report that p62 functions to facilitate K63-polyubiquitination of TRAF6 and thereby mediates nerve growth factor-induced activation of the NF-kappaB pathway. In brain of p62 knock-out mice we did not recover polyubiquitinated TRAF6. The UBA domain binds polyubiquitin chains and deletion of p62-UBA domain or mutation of F406V within the ubiquitin binding pocket of the UBA domain abolished TRAF6 polyubiquitination. Likewise, deletion of p62 N-terminal dimerization domain or the TRAF6 binding site had similar effects on both polyubiquitination and oligomerization of TRAF6. Nerve growth factor treatment of PC12 cells induced TRAF6 polyubiquitination along with formation of a p62-TRAF6-IKKbeta-PKC iota signal complex, while inhibition of the p62/TRAF6 interaction had an opposite effect. These results provide evidence for a mechanism whereby p62 serves to regulate the NF-kappaB pathway.
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PMID:The p62 scaffold regulates nerve growth factor-induced NF-kappaB activation by influencing TRAF6 polyubiquitination. 1607 48

NGF (nerve growth factor) binding to TrkA (tropomyosin receptor kinase A) induces dimerization, autophosphorylation and internalization of the receptor to signalling vesicles for delivery of differentiation signals. TrkA interacts with p75 receptor through the p62-TRAF-6 (tumour-necrosis-factor-receptor-associated factor 6) complex bridging the two receptors. The atypical protein kinase C is activated and recruited to the receptor complex as well. TrkA is Lys63-polyubiquitinated on Lys485 by the E3 (ubiquitin ligase), TRAF-6, and E2 (ubiquitin-conjugating enzyme), UbcH7. Inhibition of polyubiquitination has been observed to interrupt signalling and internalization. Furthermore, an absence of p62 prevents endosomal localization and signalling. Altogether, these findings reveal Lys63-linked polyubiquitin chains and the shuttling protein p62 co-ordinately regulate TrkA internalization, trafficking and sorting.
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PMID:The role of ubiquitin in neurotrophin receptor signalling and sorting. 1705 91

Gaps in our knowledge exist regarding the degradation of the tropomyosin-regulated kinase A (TrkA) receptor after addition of neurotrophin, nerve growth factor (NGF). TrkA is rapidly and transiently ubiquitinated upon addition of NGF. Here, we demonstrate that the polyubiquitin tag plays a definitive role in receptor sorting. Treatment of PC12 cells with lactacystin prevented NGF-dependent deubiquitination and degradation of TrkA. However, treatment with methylamine, bafilomycin or leupeptin, did not prevent NGF-dependent deubiquitination but blocked the degradation of TrkA. Employing co-immunoprecipitation, biochemical fractionation and confocal microscopy, the kinetics of receptor trafficking post-internalization was observed to occur as a sequel from endosome/multivesicular body, proteasomes, culminating with degradation in the lysosomes. The trafficking of the polyubiquitin-deficient TrkA receptor mutant K485R was impaired and likewise failed to degrade revealing that the receptor escapes degradation. The interaction of TrkA with proteasomes was confirmed by purification and co-immunoprecipitation. We provide evidence that proteasomal deubiquitinating enzymes trim K63-ubiquitin chains from the TrkA receptor prior to its delivery to lysosomes for degradation. Taken together, our results reveal the existence of a novel proteasome-dependent step in receptor degradation.
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PMID:TrkA receptor endolysosomal degradation is both ubiquitin and proteasome dependent. 1841 53

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