UNIPROT:P10415 - FACTA Search

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Query: UNIPROT:P10415 (Bcl-2)
33,771 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In the nematode Caenorhabditis elegans apoptosis is tightly regulated by a hierarchical set of genes. Two of these, ced-3 and ced-9, possess mammalian homologues encoding executional ICE proteases and inhibitory Bcl-2-related proteins, respectively. The function of a third key player, ced-4, is however completely unknown and no mammalian counterparts have been identified. Here we report that Ced-4 protein contains a structural region with similarity to the mammalian death effector domain which has previously been demonstrated to act as an important protein interaction motif in the signaling pathway of the mammalian surface receptor Fas (APO-1, CD95). Based on this finding and previously described genetic experiments, we propose that Ced-4, similar to the mammalian proteins FADD and FLICE, may possess a function as an adaptor protein in invertebrate apoptotic pathways.
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PMID:The Caenorhabditis elegans death protein Ced-4 contains a motif with similarity to the mammalian 'death effector domain'. 903 6

The Fas cell surface receptor induces apoptosis upon receptor oligomerization. We have identified a novel signaling protein, termed Daxx, that binds specifically to the Fas death domain. Overexpression of Daxx enhances Fas-mediated apoptosis and activates the Jun N-terminal kinase (JNK) pathway. A C-terminal portion of Daxx interacts with the Fas death domain, while a different region activates both JNK and apoptosis. The Fas-binding domain of Daxx is a dominant-negative inhibitor of both Fas-induced apoptosis and JNK activation, while the FADD death domain partially inhibits death but not JNK activation. The Daxx apoptotic pathway is sensitive to both Bcl-2 and dominant-negative JNK pathway components and acts cooperatively with the FADD pathway. Thus, Daxx and FADD define two distinct apoptotic pathways downstream of Fas.
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PMID:Daxx, a novel Fas-binding protein that activates JNK and apoptosis. 921 29

Activation of the cascade of proteolytic caspases has been identified as the final common pathway of apoptosis in diverse biological systems. We have isolated a gene, termed MRIT, that possesses overall sequence homology to FLICE (MACH), a large prodomain caspase that links the aggregated complex of the death domain receptors of the tumor necrosis factor receptor family to downstream caspases. However, unlike FLICE, the C-terminal domain of MRIT lacks the caspase catalytic consensus sequence QAC(R/Q)G. Nonetheless MRIT activates caspase-dependent death. Using yeast two-hybrid assays, we demonstrate that MRIT associates with caspases possessing large and small prodomains (FLICE, and CPP32/YAMA), as well as with the adaptor molecule FADD. In addition, MRIT simultaneously and independently interacts with BclXL and FLICE in mammalian cells. Thus, MRIT is a mammalian protein that interacts simultaneously with both caspases and a Bcl-2 family member.
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PMID:MRIT, a novel death-effector domain-containing protein, interacts with caspases and BclXL and initiates cell death. 932 10

E1B 19K, the adenovirus Bcl-2 homologue, is a potent inhibitor of apoptosis induced by various stimuli including Fas and tumor necrosis factor-alpha. Fas and TNFR-1 belong to a family of cytokine-activated receptors that share key components in their signaling pathways, Fas-associating protein with death domain (FADD) and FADD-like interleukin-1beta-converting enzyme (FLICE), to induce an apoptotic response. We demonstrate here that E1B 19K and Bcl-xL are able to inhibit apoptosis induced by FADD, but not FLICE. Surprisingly, apoptosis was abrogated by E1B 19K and Bcl-xL when FADD and FLICE were coexpressed. Immunofluorescence studies demonstrated that FADD expression produced large insoluble death effector filaments that may represent oligomerized FADD. E1B 19K expression disrupted FADD filament formation causing FADD and FLICE to relocalize to membrane and cytoskeletal structures where E1B 19K is normally localized. E1B 19K, however, does not detectably bind to FADD, nor does it inhibit FADD and FLICE from being recruited to the death-inducing signaling complex (DISC) when Fas is stimulated. Thus, E1B 19K may inhibit Fas-mediated cell death downstream of FADD recruitment of FLICE but upstream of FLICE activation by disrupting FADD oligomerization and sequestering an essential component of the DISC.
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PMID:E1B 19K inhibits Fas-mediated apoptosis through FADD-dependent sequestration of FLICE. 960 16

We have developed a novel system in which the susceptibility of murine thymocytes to Fas-mediated apoptosis can be modulated. Thymocyte susceptibility to Fas decreases under in vitro culture conditions that promote aspects of thymocyte maturation. The hyporesponsive state is specific for the Fas pathway, since cellular susceptibility to other apoptotic stimuli is not reduced. Hyporesponsiveness is not associated with alterations in the thymocyte subset distribution, decreased expression of full-length Fas protein, or alterations in FADD, Bcl-2, or Bcl-XL expression. Hyporesponsiveness is overcome by increasing the strength of the Fas cross-linking stimulus, leading us to propose that reduced thymocyte susceptibility to apoptosis results from altered Fas signaling. The block in Fas signaling resides proximal to ceramide generation, since Fas-hyporesponsive thymocytes are susceptible to ceramide-induced apoptosis. Further characterization of Fas signaling in these in vitro cultured thymocytes may facilitate the identification of factors regulating the susceptibility of wild-type lymphocytes to Fas.
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PMID:In vitro thymocyte maturation is associated with reduced cellular susceptibility to Fas-mediated apoptosis. 963 91

DNA viruses use elegant mechanisms to overcome the antiviral responses mediated by tumor necrosis factor (TNF), the TNF receptor family member Fas and the interferons. TNF, which is secreted by activated monocytes and lymphocytes, induces apoptosis as well as expression of genes involved in the inflammatory and immune responses. Depending on the DNA virus and the viral proteins, the following mechanisms to prevent TNF receptor- and Fas-induced apoptosis are used: (1) absorption of extracellular TNF by secreted homologs of the TNF receptor; (2) degradation of Fas; (3) inhibition of the assembly of FADD and Caspase 8 with TNFR1 and Fas; (4) direct inhibition of proapoptotic caspase enzymatic activity; and (5) inhibition of the proapoptotic members of the Bcl-2 family. Interferons induce expression of multiple antiviral genes. DNA viruses encode proteins that function in different ways to block interferon-induced transcription as well as the activity of enzymes that block viral protein synthesis. These antiviral proteins prolong acute and persistent infections.
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PMID:Inhibition of tumor necrosis factor and interferon triggered responses by DNA viruses. 966 72

Expression of the 243-residue form of the adenovirus E1A protein in the absence of other viral proteins triggers apoptosis by a pathway that requires p53. This pathway includes processing and activation of initiator procaspase-8, redistribution of cytochrome c, and activation of procaspase-3. Bcl-2 functions at or upstream of procaspase-8 processing to inhibit all of these events and prevent cell death. This contrasts with the anti-apoptotic influence of Bcl-2 family proteins in the cell death pathway induced by Fas ligand or tumor necrosis factor (TNF), in which Bcl-2 typically acts downstream of Fas/TNFR1-mediated activation of caspase-8. Moreover, E1A induces procaspase-8 processing and cell death in cells deleted of FADD, an adaptor protein critical for Fas/TNFR1 activation of caspase-8. The results indicate that E1A is capable of activating caspase-8 by a Bcl-2-inhibitable pathway that does not involve autocrine stimulation of FADD-dependent death receptor pathways.
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PMID:E1A-induced processing of procaspase-8 can occur independently of FADD and is inhibited by Bcl-2. 983 71

Jurkat cells express Fas, and rapidly undergo apoptosis in response to Fas ligand or an agonistic anti-Fas antibody. This apoptotic pathway is mediated by a cascade of caspases. In this report, we show that Fas activation induced the processing of caspase 8 in Jurkat cells with a time frame similar to the activation of caspase 3 and the proteolysis of nuclear proteins. Jurkat cell transformants that overexpress Bcl-2 were partially but not completely resistant to the Fas-induced apoptosis. Little processing of caspase 8 was observed upon Fas activation in these transformants. Furthermore, although caspase 8 was recruited to Fas upon Fas activation in the parental Jurkat cells, the recruitment of caspase 8 to Fas was inhibited in the transformants overexpressing Bcl-2. These results suggest that Bcl-2 inhibits Fas-induced apoptosis by preventing the formation of the death-inducing signaling complex that is composed of Fas, FADD/MORT1, and caspase 8.
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PMID:Inhibition of Fas-induced apoptosis by Bcl-2. 984 Sep 17

Apoptosis is a genetically programmed cell death that is required for morphogenesis during embryogenic development and for tissue homeostasis in adult organisms. In most cases, apoptosis involves cytochrome c release from mitochondria. In the cytosol, cytochrome c combines with APAF-1 in the presence of ATP to activate caspase-9 that, in turn, activates effectors caspases such as caspase-3. Bcl-2 and related proteins control cytochrome c release from the mitochondria whereas IAP (for Inhibitor of APoptosis) molecules modulate the activity of caspases. Plasma membrane receptors such as Fas (CD95, APO-1), characterized by a so-called "death domain" in their cytoplasmic domain, can activate the caspase cascade through adaptator molecules such as FADD (Fas-Associated protein with a Death Domain). Dysregulation of the apoptotic machinery plays a role in the pathogenesis of various diseases and molecules involved in cell death pathways are potential therapeutic targets in immunologic, neurologic, cancer, infectious and inflammatory diseases.
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PMID:[Apoptosis: molecular mechanisms]. 1010 3

We show here that caspase-8 is required for the death of primary rat neurons induced by an expanded polyglutamine repeat (Q79). Expression of Q79 recruited and activated caspase-8. Inhibition of caspase-8 blocked polyglutamine-induced cell death. Coexpression of Q79 with the caspase inhibitor CrmA, a dominant-negative mutant of FADD (FADD DN), Bcl-2, or Bcl-xL, but not an N-terminally tagged Bcl-xL, prevented the recruitment of caspase-8 and inhibited polyglutamine-induced cell death. Furthermore, Western blot analysis revealed the presence of activated caspase-8 in the insoluble fraction of affected brain regions from Huntington's disease (HD) patients but not in those from neurologically unremarkable controls, suggesting the relocation and activation of caspase-8 during the pathogenesis of HD. These results suggest an essential role of caspase-8 in HD-related neural degenerative diseases.
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PMID:Caspase-8 is required for cell death induced by expanded polyglutamine repeats. 1019 20

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