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:P42574 (caspase-3)
45,978 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Apoptosis is a hallmark event observed upon infection with many viral pathogens, including influenza A virus. The apoptotic process is executed by a proteolytic system consisting of a family of cysteinyl proteases, termed caspases. Since the consequences of apoptosis induction and caspase activation for the outcome of an influenza virus infection are not clear, we have addressed this issue by interfering with expression or function of a major virus-induced apoptosis effector, caspase 3. Surprisingly, influenza virus propagation was strongly impaired in the presence of an inhibitor that blocks caspase 3 and in cells where caspase 3 was partially knocked down by small interfering RNAs. Consistent with these findings, poor replication efficiencies of influenza A viruses in cells deficient for caspase 3 could be boosted 30-fold by ectopic expression of the protein. Mechanistically, the block in virus propagation appeared to be due to retention of the viral RNP complexes in the nucleus, preventing formation of progeny virus particles. Our findings indicate that caspase 3 activation during the onset of apoptosis is a crucial event for efficient influenza virus propagation.
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PMID:Caspase 3 activation is essential for efficient influenza virus propagation. 1277 87

Apoptosis occurs in influenza virus (IV)-infected cells. There are a number of mechanisms for the regulation of apoptosis. However, the molecular mechanism of IV infection-induced apoptosis is still controversial. Apoptosis signal-regulating kinase1 (ASK1) is a ubiquitously expressed mitogen-activated protein kinase kinase kinase (MAPKKK) that activates the SEK1-c-Jun N-terminal kinase (JNK) and MKK3/MKK6-p38 MAPK signaling cascades. ASK1 has been implicated in cytokine- and stress-induced apoptosis. Here, we show the following: (1) IV infection activated ASK1 and concomitantly phosphorylated JNK and p38 MAPK in human bronchial epithelial cells; (2) the activation of JNK and p38 MAPK but not extracellular-regulated kinase (ERK) in embryonic fibroblasts (MEFs) derived from ASK1 knockout mice (ASK1(-/-) MEFs) was depressed compared to MEFs derived from wild type mice (ASK1(+/+) MEFs); and (3) ASK1(-/-) MEFs were defective in IV infection-induced caspase-3 activation and cell death. These results indicate that apoptosis in IV-infected BEC is mediated through ASK1-dependent cascades.
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PMID:ASK1 regulates influenza virus infection-induced apoptotic cell death. 1287 92

The temporal and spatial distribution of active c-Jun N-terminal kinase (JNK) and p38 mitogen-activated protein kinase (MAPK) in the brain was investigated in an experimental virus-mouse system in which neurovirulent influenza A virus caused lethal acute encephalitis. Following stereotaxic microinjection into the olfactory bulb, virus-infected neurons appeared in several midbrain structures, including the ventral tegmental area, amygdala and the pyramidal layer of the hippocampus. Infected neurons exhibited apoptosis on day 5, as demonstrated by in situ detection of DNA fragmentation and active caspase-3. The stress-responsive JNK signal transduction pathway was activated in virus-infected neurons. Activation of p38 MAPK was widespread and occurred in astrocytes on day 7 after infection. Active p38 MAPK in astrocytes showed no association with apoptosis but appeared to be involved in regulation of TNF-alpha production. These results indicate that these two stress-activated protein kinases may play distinct roles during the course of lethal acute influenza virus encephalitis.
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PMID:Differential activation of the c-Jun N-terminal kinase/stress-activated protein kinase and p38 mitogen-activated protein kinase signal transduction pathways in the mouse brain upon infection with neurovirulent influenza A virus. 1291 61

Hantaviruses are known to cause two severe human diseases: haemorrhagic fever with renal syndrome and hantavirus pulmonary syndrome. The mechanisms of pathogenesis of these two diseases are progressively becoming understood. Recently, two hantaviruses, Hantaan and Prospect Hill were reported to cause programmed cell death of Vero E6 cells. This study shows that Tula hantavirus (TULV) infection efficiently triggers an apoptotic programme in infected Vero E6 cells, and that the replication of TULV is required for the activation of caspase 3 and the cleavage of poly (ADP-ribose) polymerase, two molecular hallmarks of apoptosis. The enforced treatment of infected Vero E6 cells with tumour necrosis factor alpha (TNF-alpha), but not interferon alpha (IFN-alpha), advanced the time course of apoptosis. Furthermore, caspase 8 was activated on day 4 post-infection, the same day when caspase 3 was activated. TNF receptor 1 was induced during a late stage of TULV infection. These data suggest that, unlike during influenza A virus infection, TNF-alpha, but not type I IFN-alpha/beta, may contribute significantly to apoptosis in a synergistic manner with TULV propagation. Interestingly, pretreatment with a broad-spectrum caspase inhibitor, z-VAD-fmk, efficiently inhibited apoptosis of TULV-infected Vero E6 cells. Taken together, these results suggest that TULV replication initiates a typical apoptotic programme involving caspase 8 activation.
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PMID:Tula hantavirus infection of Vero E6 cells induces apoptosis involving caspase 8 activation. 1548 39

Sphingomyelinase (SMase)-mediated release of ceramide in the plasma membrane of T-lymphocytes induced by different stimuli such as ligation of Fas/CD95, irradiation, stress, inflammation or anticancer drugs primarily involves mitochondrial apoptosis signaling, but under specific conditions non-apoptotic Fas-signaling was also reported. Here we investigated, using a quantitative simulation model with exogenous C2-ceramide (and SMase), the dependence of activation and fate of T-cells on the strength and duration of ceramide accumulation. A murine, influenza virus hemagglutinin-specific T-helper cell (IP12-7) alone or together with interacting antigen presenting B-cells (APC) was used. C2-ceramide induced apoptosis of TH cells above a 'threshold' stimulus (>25 microM in 'strength' or >30 min in duration), while below the threshold C2-ceramide was non-apoptotic, as confirmed by early and late apoptotic markers (PS-translocation, mitochondrial depolarization, caspase-3 activation, DNA-fragmentation). The modest ceramide stimuli strongly suppressed the calcium response and inhibited several downstream signal events (e.g. ERK1/2-, JNK-phosphorylation, CD69 expression or IL-2 production) in TH cells during both anti-CD3 induced and APC-triggered activation. Ceramide moderately affected the Ca2+ -release from internal stores upon antigen-specific engagement of TCR in immunological synapses, while the influx phase was remarkably reduced in both amplitude and rate, suggesting that the major target(s) of ceramide-effects are membrane-proximal. Ceramide inhibited Kv1.3 potassium channels, store operated Ca2+ -entry (SOC) and depolarized the plasma membrane to which contribution of spontaneously formed ceramide channels is possible. The impaired function of these transporters may be coupled to the quantitative, membrane raft-remodeling effect of ceramide and responsible, in a concerted action, for the suppressed activation. Our results suggest that non-apoptotic Fas stimuli, received from previously activated, FasL+ interacting lymphocytes in the lymph nodes, may negatively regulate subsequent antigen-specific T-cell activation and thus modulate the antigen-specific T-cell response.
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PMID:Death or survival: membrane ceramide controls the fate and activation of antigen-specific T-cells depending on signal strength and duration. 1609 42

The influenza virus PB1-F2 is an 87-amino acid mitochondrial protein that previously has been shown to induce cell death, although the mechanism of apoptosis induction has remained unclear. In the process of characterizing its mechanism of action we found that the viral PB1-F2 protein sensitizes cells to apoptotic stimuli such as tumor necrosis factor alpha, as demonstrated by increased cleavage of caspase 3 substrates in PB1-F2-expressing cells. Moreover, treatment of purified mouse liver mitochondria with recombinant PB1-F2 protein resulted in cytochrome c release, loss of the mitochondrial membrane potential, and enhancement of tBid-induced mitochondrial permeabilization, suggesting a possible mechanism for the observed cellular sensitization to apoptosis. Using glutathione-S-transferase pulldowns with subsequent mass spectrometric analysis, we identified the mitochondrial interactors of the PB1-F2 protein and showed that the viral protein uniquely interacts with the inner mitochondrial membrane adenine nucleotide translocator 3 and the outer mitochondrial membrane voltage-dependent anion channel 1, both of which are implicated in the mitochondrial permeability transition during apoptosis. Consistent with this interaction, blockers of the permeability transition pore complex (PTPC) inhibited PB1-F2-induced mitochondrial permeabilization. Based on our findings, we propose a model whereby the proapoptotic PB1-F2 protein acts through the mitochondrial PTPC and may play a role in the down-regulation of the host immune response to infection.
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PMID:Influenza virus PB1-F2 protein induces cell death through mitochondrial ANT3 and VDAC1. 1620 Oct 16

GRASP-1 is a neuronally enriched protein that interacts with the AMPA-type glutamate receptor/GRIP complex. GRASP-1 can be cleaved by Caspase-3 in both normal and ischemic brains although the functional significance of this cleavage remains elusive. We investigated signal transduction pathways that might lie downstream of GRASP-1 and found that GRASP-1 potently activates JNK pathway signaling, with no effect on ERK signaling. Such JNK pathway activating activity requires binding of GRASP-1 to both JNK and the upstream JNK pathway activator MEKK-1. Furthermore, mutations that prevent Caspase 3-cleavage of GRASP-1 dramatically inhibit the JNK pathway activating activity of GRASP-1, suggesting a novel link between Caspase-3 activation and JNK pathway signaling. These results suggest that GRASP-1 serves as a scaffold protein to facilitate MEKK-1 activation of JNK signaling in neurons.
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PMID:GRASP-1 is a neuronal scaffold protein for the JNK signaling pathway. 1776 Nov 73

The virus-encoded viroporins are known to modify membrane permeability and play an essential role in virus budding. Here, a comparative analysis of the membrane permeabilization capacity of a number of viroporins was performed in baby hamster kidney cells. Synthesis of 6K protein from Sindbis virus, E from mouse hepatitis virus, M2 from influenza A virus, and 2B and 3A from poliovirus enhanced membrane permeability to different extents. We show that two proteins from hepatitis C virus, p7 and NS4A, also display viroporin activity to a level comparable to 6K protein. In addition to their capacity to disrupt ionic cellular homeostasis and promote bacterial cell lysis, the expressed viroporins were able to induce cell death. Degradation of internucleosomal DNA and generation of apoptotic bodies were observed upon viroporin expression. Consistently, cleavage of translation initiation factor 4GI and poly-(ADP-ribose) polymerase indicated activation of effector caspase-3. We found that poliovirus 2B localizes partially in mitochondria and induces an anomalous perinuclear distribution of these organelles. Mitochondria morphology was also altered after expression of other viroporins. Finally, detection of cytochrome c release from mitochondria suggests involvement of the mitochondrial pathway in viroporin-induced apoptosis. These findings suggest that viroporins induce caspase-dependent programmed cell death.
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PMID:Viroporins from RNA viruses induce caspase-dependent apoptosis. 1796 Nov 83

Avian H5N1 influenza virus causes a remarkably severe disease in humans, with an overall case fatality rate of greater than 50%. Human influenza A viruses induce apoptosis in infected cells, which can lead to organ dysfunction. To verify the role of H5N1-encoded NS1 in inducing apoptosis, the NS1 gene was cloned and expressed in human airway epithelial cells (NCI-H292 cells). The apoptotic events posttransfection were examined by a terminal deoxynucleotidyltransferase-mediated dUTP-biotin nick-end-labeling assay, flow cytometric measurement of propidium iodide, annexin V staining, and Western blot analyses with antibodies specific for proapoptotic and antiapoptotic proteins. We demonstrated that the expression of H5N1 NS1 protein in NCI-H292 cells was sufficient to induce apoptotic cell death. Western blot analyses also showed that there was prominent cleavage of poly(ADP-ribose) polymerase and activation of caspase-3, caspase-7, and caspase-8 during the NS1-induced apoptosis. The results of caspase inhibitor assays further confirmed the involvement of caspase-dependent pathways in the NS1-induced apoptosis. Interestingly, the ability of H5N1 NS1 protein to induce apoptosis was much enhanced in cells pretreated with Fas ligand (the time posttransfection required to reach >30% apoptosis was reduced from 24 to 6 h). Furthermore, 24 h posttransfection, an increase in Fas ligand mRNA expression of about 5.6-fold was detected in cells transfected with H5N1 NS1. In conclusion, we demonstrated that the NS1 protein encoded by avian influenza A virus H5N1 induced apoptosis in human lung epithelial cells, mainly via the caspase-dependent pathway, which encourages further investigation into the potential for the NS1 protein to be a novel therapeutic target.
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PMID:Avian influenza virus A/HK/483/97(H5N1) NS1 protein induces apoptosis in human airway epithelial cells. 1819 56

During an innate immune response, macrophages recognize viruses by their pattern recognition receptors. In this study, we have studied the role of membrane-associated TLRs and cytoplasmic retinoic acid inducible gene-I (RIG-I)-like receptors (RLR) in regulation of IFN-beta, IL-29, IL-1beta, and IL-18 production and caspases 1 and 3 activation in human macrophages. We provide evidence that TLRs are mainly involved in transcriptional up-regulation of IL-1beta gene expression, whereas cytosolic dsRNA recognition pathway stimulates powerful IFN-beta and IL-29 gene transcription. However, robust IL-1beta secretion occurred only if two TLRs were triggered simultaneously or if a single TLR was activated in conjunction with the RLR pathway. Markedly, TLR activation did not stimulate IL-18 processing or secretion. In contrast, triggering of cytosolic RNA recognition pathway with poly(I:C) transfection or influenza A virus infection resulted in caspase-1- and -3-mediated proteolytic processing of pro-IL-18 and secretion of biologically active IL-18. Furthermore, caspase 3-dependent processing of pro-IL-18 was also observed in human HaCaT keratinocytes, and forced expression of RIG-I and its downstream effector, mitochondrial antiviral signaling protein, activated proteolytic processing of pro-IL-18, caspase-3, and apoptosis in these cells. The present results indicate that in addition to robust IFN-beta, IL-29, IL-1beta, and IL-18 generation, RIG-I/mitochondrial antiviral signaling protein pathway activates caspase-3, suggesting a role for these RIG-I-like receptors beyond the innate cytokine response, hence, in the induction of apoptosis of the virus-infected cell.
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PMID:Cytosolic antiviral RNA recognition pathway activates caspases 1 and 3. 1820 72


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