UNIPROT:P42574 - FACTA Search

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

We previously demonstrated that Caspase-3 is highly expressed in dorsal root ganglia and trigeminal ganglia of mouse embryos [T. Mukasa, K. Urase, Y.M. Momoi, I. Kimura, T. Momoi, Specific expression of CPP32 in sensory neurons of mouse embryos and activation of CPP32 in the apoptosis induced by a withdrawal of NGF, Biochem. Biophys. Res. Commun., 231 (1997) 770-774.]. Since, however, Caspases are processed into active form during apoptosis, it is difficult to examine the involvement of activated Caspases in naturally occurring cell death during development by immunohistochemical staining or in situ hybridization method. We prepared a cleavage site-directed antiserum against Caspase-3 (anti-p20/17). This antiserum reacted with fragment (p20/17) of Caspase-3, but not proCaspase-3 (p32), proCaspase-7 (p34) and its cleaved fragment (p24). We examined the relationship between the activation of Caspase-3 and the appearance of the naturally occurring apoptotic cells in the nervous system during development. In the trigeminal ganglia and dorsal root ganglia, the expression of Caspase-3 mRNA was maximal before the appearance of p20/17-positive cells and apoptotic cells. In the mouse brain, many p20/17-positive cells and apoptotic cells were observed in the neuroepithelium in the early developmental stages, but very few p20/17-positive cells were detected in postmitotic neurons in the cerebral cortex although Caspase-3 mRNA was expressed highly. Caspase-3 is activated mainly during apoptosis of neuroepithelial cells in the early developmental stages but not of mature neurons at postnatal stages.
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PMID:Detection of activated caspase-3 (CPP32) in the vertebrate nervous system during development by a cleavage site-directed antiserum. 980

Treatment with NGF causes long-term cultures of oligodendrocytes to die via a yet undefined mechanism mediated by the p75 neurotrophin receptor. The p75 receptor belongs to the TNF receptor superfamily of molecules, which includes Fas and p55 TNF receptors. The Fas and TNF receptors use adaptor molecules to recruit and activate caspase-8 to the receptor. Using a combination of immunohistochemical and Western blotting assays, we have examined caspase activity during NGF-induced apoptosis. Interestingly, although caspase-1 [interleukin-1beta-converting enzyme (ICE)], caspase-2, caspase-3, and caspase-8 were expressed in oligodendrocytes, only caspase-1, -2, and -3 were activated after NGF treatment, whereas caspase-8 was not. These data suggest that the mechanism of apoptosis by NGF through the p75 receptor is different from TNF and Fas-mediated killing. gamma Radiation of oligodendrocytes also activated a similar subset of caspases as NGF, indicating that NGF-induced oligodendrocyte apoptosis uses a similar cell death execution mechanism as injury models. This consolidates a potential role of the p75 neurotrophin receptor during stress and inflammatory conditions.
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PMID:Oligodendrocyte apoptosis mediated by caspase activation. 1019 21

Although nitric oxide (NO) induces neuronal cell death under some conditions, it also can prevent apoptosis resulting from growth factor withdrawal. We investigated the molecular mechanism by which NO protects undifferentiated and differentiated PC12 cells from trophic factor deprivation-induced apoptosis. PC12 cells underwent apoptotic death in association with increased caspase-3-like activity, DNA fragmentation, poly(ADP-ribose) polymerase (PARP) cleavage, and cytochrome c release after 24 hr of serum withdrawal. The apoptosis of PC12 cells was inhibited by the addition of NO-generating donor S-nitroso-N-acetylpenicillamine (SNAP) (5-100 microM) and the specific caspase-3-like protease inhibitor Ac-Asp-Glu-Val-Asp-aldehyde (Ac-DEVD-cho) but not the YVADase (or caspase-1-like protease) inhibitor N-acetyl-Tyr-Val-Ala-Asp-aldehyde (Ac-YVAD-cho). SNAP and Ac-DEVD-cho prevented the increase in DEVDase (caspase-3-like protease) activity. The SNAP-mediated suppression of DEVDase activity was only minimally reversed by the incubation of cell lysate with dithiothreitol, indicating that NO did not S-nitrosylate caspase-3-like proteases in PC12 cells. Western blot analysis showed that NO inhibited the proteolytic activation of caspase-3. The cGMP analog 8-bromo-cGMP (8-Br-cGMP) blocked apoptotic cell death, caspase-3 activity and activation, and cytochrome c release. The soluble guanylyl cyclase inhibitor 1-H-oxodiazol-[1,2,4]-[4,3-a] quinoxaline-1-one (CODQ) significantly attenuated NO-mediated, but not 8-Br-cGMP-dependent, inhibition of apoptotic cell death, PARP cleavage, cytochrome c release, and DEVDase activity. Furthermore, the protein kinase G inhibitor KT5823 reversed both SNAP- and 8-Br-cGMP-mediated anti-apoptotic events. All these apoptotic phenomena were also suppressed by NO production through neuronal NO synthase gene transfer into PC12 cells. Furthermore, similar findings were observed in differentiated PC12 cells stimulated to undergo apoptosis by NO donors and NGF deprivation. These findings indicate that NO protects against PC12 cell death by inhibiting the activation of caspase proteases through cGMP production and activation of protein kinase G.
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PMID:Nitric oxide protects PC12 cells from serum deprivation-induced apoptosis by cGMP-dependent inhibition of caspase signaling. 1043 31

The low affinity neurotrophin receptor p75NTR can mediate cell survival as well as cell death of neural cells by NGF and other neurotrophins. To elucidate p75NTR-mediated signal transduction, we screened p75NTR-associated proteins by a yeast two-hybrid system. We identified one positive clone and named NADE (p75NTR-associated cell death executor). Mouse NADE has marked homology to the human HGR74 protein. NADE specifically binds to the cell-death domain of p75NTR. Co-expression of NADE and p75NTR induced caspase-2 and caspase-3 activities and the fragmentation of nuclear DNA in 293T cells. However, in the absence of p75NTR, NADE failed to induce apoptosis, suggesting that NADE expression is necessary but insufficient for p75NTR-mediated apoptosis. Furthermore, p75NTR/NADE-induced cell death was dependent on NGF but not BDNF, NT-3, or NT-4/5, and the recruitment of NADE to p75NTR (intracellular domain) was dose-dependent. We obtained similar results from PC12 cells, nnr5 cells, and oligodendrocytes. Taken together, NADE is the first signaling adaptor molecule identified in the involvement of p75NTR-mediated apoptosis induced by NGF, and it may play an important role in the pathogenesis of neurogenetic diseases.
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PMID:NADE, a p75NTR-associated cell death executor, is involved in signal transduction mediated by the common neurotrophin receptor p75NTR. 1076 27

Chronic treatment with calcium ionophore A23187 in NGF-differentiated cells results in cell death that is time- and concentration-dependent. Additionally, PC12 cells codifferentiated with NGF and dBcAMP become dependent on these factors for survival and undergo apoptosis when both factors are withdrawn. We show that in both cases there is a prolonged induction of c-Fos which correlates with cell death. Its continual activation in PC12 cells overexpressing c-FosER results in caspase-3 cleavage and rapid cell death. Specific phosphorylation of CREB/CREM(tau) transactivators or their binding to CRE of c-fos was observed. Our results indicate that prolonged c-Fos induction activates p53. There is increased nuclear localization of p53, p21 and Bax levels are induced in NGF/dBcAMP-deprived c-FosER cells, and dominant negative p53 inhibits cell death induced either by serum deprivation or by c-Fos. Overall these data implicate AP-1 as a nuclear target of signal transduction pathways which plays a role in the activation of apoptosis.
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PMID:Molecular mechanisms of neuronal cell death: implications for nuclear factors responding to cAMP and phorbol esters. 1235 47

Traumatic brain injury (TBI) is a serious neurodisorder commonly caused by car accidents, sports related events or violence. Preventive measures are highly recommended to reduce the risk and number of TBI cases. The primary injury to the brain initiates a secondary injury process that spreads via multiple molecular mechanisms in the pathogenesis of TBI. The events leading to both neurodegeneration and functional recovery after TBI are generalized into four categories: (i) primary injury that disrupts brain tissues; (ii) secondary injury that causes pathophysiology in the brain; (iii) inflammatory response that adds to neurodegeneration; and (iv) repair-regeneration that may contribute to neuronal repair and regeneration to some extent following TBI. Destructive multiple mediators of the secondary injury process ultimately dominate over a few intrinsic protective measures, leading to activation of cysteine proteases such as calpain and caspase-3 that cleave key cellular substrates and cause cell death. Experimental studies in rodent models of TBI suggest that treatment with calpain inhibitors (e.g., AK295, SJA6017) and neurotrophic factors (e.g., NGF, BDNF) can prevent neuronal death and dysfunction in TBI. Currently, there is still no precise therapeutic strategy for the prevention of pathogenesis and neurodegeneration following TBI in humans. The search continues to explore new therapeutic targets and development of promising drugs for the treatment of TBI.
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PMID:Molecular mechanisms in the pathogenesis of traumatic brain injury. 1237 Nov 42

Infantile spinal muscular atrophy (SMA) is caused by mutations in the survival motor neuron (SMN)1 gene. We investigated the role of human (h) SMN protein on cell death in PC12 and Rat-1 cells. hSMN prolonged cell survival in PC12 cells deprived of trophic support and in Rat-1 cells induced to die by activation of the proto-oncogene c-Myc, to similar magnitude as Bcl-2 or IAP-2. While hSMN was ineffective in inhibiting apoptosis induced by ultraviolet light (UV) or etoposide treatment in proliferating PC12 or Rat-1 cells, a protective effect was observed in terminally NGF/dBcAMP-differentiated PC12 cells. hSMN inhibited the onset of apoptosis in NGF/dBcAMP-deprived or UV-treated co-differentiated PC12 cells by preventing cytochrome c release and caspase-3 activation, indicating that its effects are through suppression of the mitochondrial apoptotic pathway. Expressing hSMN deleted for exon 7 (Delta7) or for exons 6 and 7 (Delta6/7), or with the SMA point mutant Y272C, resulted in loss of survival function. Moreover, these mutants also exhibited pro-apoptotic effects in Rat-1 cells. The localization pattern of full-length hSMN in PC12 and Rat-1 cells was similar to that of endogenous SMN: granular labelling in the cytoplasm and discrete fluorescence spots in the nucleus, some of which co-localized with p80 coilin, the characteristic marker of Cajal bodies. However, cytoplasmic and nuclear aggregates were often seen with hSMNDelta7, whereas the hSMNDelta6/7 mutant showed homogenous nuclear labelling that excluded the nucleolus. Thus, our results show that the C-terminal region is critical in suppression of apoptosis by SMN.
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PMID:Involvement of survival motor neuron (SMN) protein in cell death. 1237 65

Withdrawal of NGF (NGF-W) in PC12 cells leads to caspase and GSK3beta activation which results in cell death. Our recent findings suggest that inhibition of GSK3beta promotes PC12 cell survival after NGF-W. To determine whether these pathways interact from a signalling perspective, we compared the effects of BAF (a general caspase inhibitor), Li+ (a GSK3beta inhibitor) and insulin on NGF-W induced PC12 cell death. Maximal increase in DNA fragmentation was observed 3 h after NGF-W and was inhibited by BAF (7.5 microM), Li+ (IC(50) = 2 mM) and insulin (IC(50) = 100 nM). BAF inhibited caspase-3 activity and delayed cell death up to 6 h after NGF-W indicating that caspase inhibition is sufficient to prevent apoptosis. BAF had no major effect on GSK3betaactive site phosphorylation or activity suggesting the caspase pathway does not regulate GSK3beta activity. Conversely, Li+ inhibited caspase activity by only 20% but promoted cell survival for 24 h after NGF-W. Overexpression of dominant negative mutants of GSK3beta also inhibited apoptosis, but had only a minor effect on caspase activity after NGF-W. Taken together, these results suggest that GSK3beta is upstream of caspase signalling, and exerts a small effect on the caspase pathway.
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PMID:Interactions between GSK3beta and caspase signalling pathways during NGF deprivation induced cell death. 1244 31

Trauma to the nervous system triggers responses that include oxidative stress due to the generation of reactive oxygen species (ROS). DNA is a major macromolecular target of ROS, and ROS-induced DNA strand breaks activate poly(ADP-ribose)polymerase-1 (PARP-1). Upon activation PARP-1 uses NAD(+) as a substrate to catalyze the transfer of ADP-ribose subunits to a host of nuclear proteins. In the face of extensive DNA strand breaks, PARP-1 activation can lead to depletion of intracellular NAD(P)(H) pools, large decreases in ATP, that threaten cell survival. Accordingly, inhibition of PARP-1 activity after acute oxidative injury has been shown to increase cell survival. When NGF-differentiated PC12 cells, an in vitro neuronal model, are exposed to H(2)O(2) there is increased synthesis of poly ADP-ribose and decreases in intracellular NAD(P)(H) and ATP. Addition of the chemical PARP inhibitor 3-aminobenzamide (AB) prior to H(2)O(2) exposure blocks the synthesis of poly ADP-ribose and maintains intracellular NAD(P)(H) and ATP levels. H(2)O(2) injury is characterized by an immediate, necrotic cell death 2h after injury and a delayed apoptotic-like death 12-24h after injury. This apoptotic-like death is characterized by apoptotic membrane changes and apoptotic DNA fragmentation but is not associated with measurable caspase-3 activity. AB delays cell death beyond 24h and increases cell survival by approximately 25%. This protective effect is accompanied by significantly decreased necrosis and the apoptotic-like death associated with H(2)O(2) exposure. AB also restores caspase-3 which can be attributed to the activation of the upstream activator of caspase-3, caspase-9. Thus, the maintenance of intracellular ATP levels associated with PARP-1 inhibition shifts cell death from necrosis to apoptosis and from apoptosis to cell survival. Furthermore, the shift from necrosis to apoptosis may be explained, in part, by an energy-dependent activation of caspase-9.
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PMID:Neuronal trauma model: in search of Thanatos. 1546 78

The c-Jun N-terminal kinases (JNKs) are important mediators of neurodegeneration and their actions include the activation of genetic programs by phosphorylation of the nuclear transcription factor c-Jun/AP-1, the release of cytochrome c or the pro-inflammatory actions of microglia. Recent data, however, provide evidence for physiological functions of JNKs in particular JNK1, and this involves a role of JNKs in the development of the brain and the (functional and/or structural) integrity of the cytoskeleton. Here we summarize our findings on the cytoskeleton-associated actions of JNKs. Thus, JNKs the relevant MAP kinases for the NGF-induced formation and elongation of PC12 cells, and this process is also supported by JNK2 and JNK3 which are commonly considered as pro-apoptotic signal transducers. Importantly, JNK3 is also mandatory for the intact differentiation of neurons since the functional deletion of JNK3 caused apoptotic features such as activation of caspase 3 in untreated P0 primary hippocampal neurons and following glutamate excitotoxicity. Finally, we can visualize the presence of JNKs at the cytoskeleton, axon and growth cones of primary hippocampal neurons and PC12 cells, and this pattern changes following excitatory stimulation with glutamate. Thus, the functional role of JNKs during development and differentiation substantially differs from their degenerative actions in the adult brain.
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PMID:c-Jun N-terminal kinases (JNKs) and the cytoskeleton--functions beyond neurodegeneration. 1546 86

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