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)

Fas/Fas ligand system triggers apoptosis in many cell types. Bcl-XL overexpresion antagonizes Fas/Fas ligand-mediated cell death. The mechanism by which Bcl-XL influences Fas-mediated cell death is unclear. We have found that microtubule-damaging drugs (e.g. Paclitaxel) induce apoptosis in a Fas/FasL-dependent manner. Inhibition of Fas/FasL pathway by anti-FasL antibody, mutant Fas or a dominant negative FADD blocks paclitaxel-induced apoptosis. Paclitaxel induced apoptosis through activation of both caspase-8 and caspase-3. Overexpression of Bcl-XL leads to inhibition of paclitaxel-induced FasL expression and apoptosis. Bcl-XL prevents the nuclear translocation of NFAT (nuclear factor of activated T lymphocytes) by inhibiting the activation of calcineurin, a calcium-dependent phosphatase that must dephosphorylate NFAT for it to move to the nucleus. The loop domain in Bcl-XL can suppress the anti-apoptotic function of Bcl-XL and may be a target for regulatory post-translational modifications. Upon phosphorylation, Bcl-XL loses its ability to bind with calcineurin. Without NFAT nuclear translocation, the FasL gene is not transcribed. Thus, paclitaxel and other drugs that disturb microtubule function kill cells, at least in part, through the induction of FasL, and Bcl-XL-mediated resistance to these agents is related to failure to induce FasL expression.
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PMID:Inhibition of drug-induced Fas ligand transcription and apoptosis by Bcl-XL. 1171 66

The immunosuppressant FK506 displays substantial neuroprotective and neuroregenerative effects. It is not fully understood to which extent these effects depend on the inhibition of the calcineurin phosphatase (PP2B). The present study has re-addressed this issue using Lie120, a novel highly specific inhibitor of calcineurin, which does not block the enzymatic activity of FKBPs or cyclophilins, respectively. We have determined the effect of FK506 (10-500 nM), V-10,367 (a FK506 derivative which does not block calcineurin; 1-5 microM) and Lie120 (a novel specific inhibitor of calcineurin, 0.1-5 microM) on the cellular survival and the pro-degenerative JNK activity of PC12 and Neuro2A cells following application of 200 microM H(2)O(2). FK506 and V-10,367, but not Lie120, protected both cell lines against H(2)O(2)-mediated death, whereas an increase in JNK1 activity was blocked by FK506 and Lie120, but not by V-10,367. Co-incubation of FK506 and V-10,367 with the mRNA synthesis inhibitor actinomycin D abolished the protective effect of FK506 and V-10,367. This antagonization was effective when actinomycin D was applied 30 min or 1 h, but not 2 or 4 h, after H(2)O(2) suggesting that FKBP-ligands confer their neuroprotection by rapid de novo synthesis of (functionally) anti-apoptotic proteins. The search for the corresponding effector genes revealed that the expression of FKBP25, FKBP38 and FKBP52 (analysis by reverse transcription-polymerase chain reaction (RT-PCR) did not change following H(2)O(2) or FK506, and this was also true for the expression of apoptosis-related genes caspase 3, bax, bcl-2 and bcl-xL (analysis by Multiplex-PCR). Summarizing, neuronal protection by FKBP-ligands is not mediated either by calcineurin or by JNK1 in this experimental set-up, whereas the FK506 mediated inhibition of JNK1 is realized by the inhibition of calcineurin, an effective activator of JNK1 in neurons.
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PMID:The neuroprotective actions of FK506 binding protein ligands: neuronal survival is triggered by de novo RNA synthesis, but is independent of inhibition of JNK and calcineurin. 1174 59

The aberrant metabolism of beta-amyloid precursor protein (APP) and the progressive deposition of its derived fragment beta-amyloid peptide are early and constant pathological hallmarks of Alzheimer's disease. Because APP is able to function as a cell surface receptor, we investigated here whether a disruption of the normal function of APP may contribute to the pathogenic mechanisms in Alzheimer's disease. To this aim, we generated a specific chicken polyclonal antibody directed against the extracellular domain of APP, which is common with the beta-amyloid precursor-like protein type 2. Exposure of cultured cortical neurons to this antibody (APP-Ab) induced cell death preceded by neurite degeneration, oxidative stress, and nuclear condensation. Interestingly, caspase-3-like protease was not activated in this neurotoxic action suggesting a different mode of cell death than classical apoptosis. Further analysis of the molecular mechanisms revealed a calpain- and calcineurin-dependent proteolysis of the neuroprotective calcium/calmodulin-dependent protein kinase IV and its nuclear target protein cAMP responsive element binding protein. These effects were abolished by the G protein inhibitor pertussis toxin, strongly suggesting that APP binding operates via a GTPase-dependent pathway to cause neuronal death.
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PMID:Amyloid precursor protein family-induced neuronal death is mediated by impairment of the neuroprotective calcium/calmodulin protein kinase IV-dependent signaling pathway. 1187 14

Taxol is a microtubule-stabilizing agent which induces apoptosis in various cancer cells. In this study, we found that T24 cells derived from high grade human urinary bladder cancer were relatively resistant to taxol and that the IC50 value determined by a colorimetric WST-1 assay was 406.0 nM. Interestingly, cyclosporin A (CsA), an immunosuppressive drug, dramatically enhanced sensitivity to taxol, and the IC50 value was decreased to 47.5 nM in the presence of 1 microM CsA. KK47 cells derived from low grade human urinary bladder cancer showed high sensitivity to taxol with an IC50 value of 78.8 nM which decreased to 14.4 nM in the presence of 1 microM CsA. FK506, another immunosuppressive drug, also enhanced sensitivity to taxol. Furthermore, a concomitant loss of calcineurin activity was observed after the treatment of both cell lines with both CsA and FK506. Taxol induced apoptosis of the cells, as assessed by Hoechst 33258 staining and by the measurement of caspase 3 activity. Immunoblot analysis with an antibody against Bcl-2 phosphorylated at serine 70 demonstrated that taxol induced the phosphorylation of Bcl-2 with its enhancement in the presence of CsA. In addition, treatment of the cells with CsA significantly decreased the expression of Bcl-2 at both the protein and mRNA levels. These results suggest that the enhancement of taxol-induced apoptosis by immunosuppressive drugs is at least partly due to the inhibition of calcineurin activity and the loss of the antiapoptotic function of Bcl-2 via the enhancement of phosphorylation and the reduction of expression.
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PMID:Enhancement by cyclosporin A of taxol-induced apoptosis of human urinary bladder cancer cells. 1208 14

Stress of the endoplasmic reticulum (ER), which is associated with many neurodegenerative conditions, can lead to the elimination of affected cells by apoptosis through only partially understood mechanisms. Thapsigargin, which causes ER stress by inhibiting the ER Ca(2+)-ATPase, was found to not only activate the apoptosis effector caspase-3 but also to cause a large and prolonged increase in the activity of glycogen synthase kinase-3beta (GSK3beta). Activation of GSK3beta was obligatory for thapsigargin-induced activation of caspase-3, because inhibition of GSK3beta by expression of dominant-negative GSK3beta or by the GSK3beta inhibitor lithium blocked caspase-3 activation. Thapsigargin treatment activated GSK3beta by inducing dephosphorylation of phospho-Ser-9 of GSK3beta, a phosphorylation that normally maintains GSK3beta inactivated. Caspase-3 activation induced by thapsigargin was blocked by increasing the phosphorylation of Ser-9-GSK3beta with insulin-like growth factor-1 or with the phosphatase inhibitors okadaic acid and calyculin A, but the calcineurin inhibitors FK506 and cyclosporin A were ineffective. Insulin-like growth factor-1, okadaic acid, calyculin A, and lithium also protected cells from two other inducers of ER stress, tunicamycin and brefeldin A. Thus, ER stress activates GSK3beta through dephosphorylation of phospho-Ser-9, a prerequisite for caspase-3 activation, and this process is amenable to pharmacological intervention.
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PMID:Central role of glycogen synthase kinase-3beta in endoplasmic reticulum stress-induced caspase-3 activation. 1222 24

The focus of this study is to examine the ability of FK506, an immunosuppressant that inhibits calcineurin activation, to limit caspase-3 activation in oligodendroglia following spinal cord injury (SCI). To better establish a role for calcineurin and caspase-3 activation in oligodendroglia following SCI, rats received a contusion injury to the spinal cord followed by treatment with FK506 or rapamycin (another immunosuppressant with no detectable inhibitory action on calcineurin activation). Animals were then sacrificed at 8 days postinjury and spinal cord tissue was processed using immunofluorescence histochemistry to examine cellular caspase-3 activation in ventral and dorsal white matter. In all treatment groups, numerous oligodendroglia were found to express the activated form of caspase-3 in regions proximal and distal to the injury epicenter. However, our findings suggest that treatment with FK506, but not rapamycin reduces the number of oligodendroglia expressing activated caspase-3 and increases the number of surviving oligodendroglia in dorsal white matter. These results provide initial evidence that agents that reduce the actions of calcineurin and subsequent caspase-3 activation may prove beneficial in the treatment of traumatic SCI.
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PMID:FK506 treatment inhibits caspase-3 activation and promotes oligodendroglial survival following traumatic spinal cord injury. 1242 26

Although pathogenesis of neuronal ischemia is incompletely understood, evidence indicates apoptotic neuronal death after ischemia. Bcl-2, an anti-apoptotic and neuroprotective protein, interacts with calcineurin in non-neuronal tissues. Activation of calcineurin, which is abundant in the brain, may play a role in apoptosis. Using co-immunoprecipitation experiments in biopsy-derived, fresh human cortical and hippocampal slices, we examined possible interactions between calcineurin and Bcl-2. Calcineuin-Bcl-2 interactions increased after exposure in vitro to excitotoxic agents and conditions of hypoxia/aglycia. This interaction may shuttle calcineurin to substrates such as the inositol-1,4,5-tris-phosphate receptor because under these experimental conditions interactions between calcineurin and inositol-1,4,5-tris-phosphate receptor also increased. A specific calcineurin inhibitor, FK-520, attenuated insult-induced increases in calcineurin-Bcl-2 interactions and augmented caspase-3 like activity. These data suggest that Bcl-2 modulates neuroprotective effects of calcineurin and that calcineurin inhibitors increase ischemic neuronal damage.
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PMID:In vitro hypoxia and excitotoxicity in human brain induce calcineurin-Bcl-2 interactions. 1261 62

(1) The macrolid FK506 is widely used in transplantation to suppress allograft rejection. FK506 and its derivatives are powerful neuroprotective molecules, but the underlying mechanisms remain to be resolved. We have previously shown that the FK506 mediated neuroprotection against oxygen radicals is independent of the inhibition of calcineurin but depends on de novo protein synthesis. (2) Here, we have shown that FK506 mediates protection against H(2)O(2), UV-light or thapsigargin in neuronal cell lines, but not in non-neuronal cells such as R3T3 fibroblasts. We compared in detail the effect of FK506 on apoptotic features in PC12 cells after H(2)O(2) with V-10,367 which binds to FKBPs but does not inhibit calcineurin. Both molecules exert the same neuroprotective effect after H(2)O(2) stimulation. FK506, but not V-10,367, inhibited the cytochrome c release out of the mitochondria and the caspase 3 activation, while both molecules inhibited the cleavage of Poly-(ADP-ribose)-polymerase (Parp) and prevented the expression of p53. (3) FK506 and V-10,367 rapidly induced the expression of Hsp70 and Hsp27, but not Hsp90. Their neuroprotective actions could be completely blocked by quercetin, a functional inhibitor of the heat shock proteins. (4) We conclude that immunophilin-ligands such as FK506 and V-10,367 exert their neuroprotection independent of calcineurin through the induction of the heat shock response. The identification of the underlying signal transduction from application of immunophilin ligands to the expression of heat shock proteins represents a novel target cascade for neuroprotection.
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PMID:The immunophilin-ligands FK506 and V-10,367 mediate neuroprotection by the heat shock response. 1264 3

It is usually accepted that prion and amyloid-beta (A beta) peptides induce apoptotic cell death. However, the mechanisms that trigger neuronal death, induced by these amyloidogenic peptides, remain to be clarified. In the present study we analysed the neurotoxic effects of the synthetic prion and A beta peptides, PrP106-126 and A beta 25-35, in primary cultures of rat brain cortical cells. PrP106-126 and A beta 25-35 incubated at a concentration of 25 micro m for 24 h, did not affect cell membrane integrity, but decreased the metabolic capacity of the cells. The intracellular free Ca2+ concentration and reactive oxygen species levels increased significantly after 24 h treatment with PrP106-126 and A beta 25-35. Furthermore, these peptides (after 24 h exposure) also induced cytochrome c release from mitochondria and increased caspase-3-like activity. FK506, an inhibitor of the Ca2+/calmodulin-dependent phosphatase, calcineurin, was able to prevent cytochrome c release, caspase-3 activation and cell death induced by A beta 25-35 or PrP106-126 peptides. Taken together these data suggest that calcineurin is involved in A beta 25-35 and PrP106-126 neurotoxicity.
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PMID:Involvement of calcineurin in the neurotoxic effects induced by amyloid-beta and prion peptides. 1267 Mar 7

Ischemia/reperfusion of heart causes contractile dysfunction, necrosis and/or apoptosis and is a major cause of human death, but the molecular mechanisms are unclear. We show that ischemia alone (without reperfusion) is sufficient to induce apoptosis and mitochondrial dysfunction, and we have investigated the mechanism responsible; 30 and 60 min stop-flow ischemia in Langendorff-perfused rat hearts induced progressive (a). release of cytochrome c from mitochondria to cytosol, (b). inhibition of the mitochondrial respiratory functions, (c). activation of caspase-3-like protease activity and (d). DNA strand breaks (however, only 2% of myocyte nuclei were TUNEL positive at 60 min). Fifteen minutes pre-perfusion of hearts with cyclosporin A, an inhibitor of mitochondrial-permeability transition (MPT), largely prevented all these ischemic changes. Pre-perfusion of hearts with FK506, an inhibitor of calcineurin, caused no protection. Pre-perfusion with DEVD-CHO, an inhibitor of caspase-3-like proteases, completely prevented ischemia-induced DNA strand breaks, but only partially blocked cytochrome c release and mitochondrial respiratory inhibition. Reperfusion of hearts after 30 min ischemia further stimulated caspase activity and nuclear apoptosis. We conclude that ischemia-induced MPT causes release of cytochrome c, which then activates the caspases that execute apoptosis and feedback to cause further cytochrome c release. The MPT-induced cytochrome c release is also largely responsible for the ischemic respiratory inhibition, which might contribute to contractile dysfunction or necrosis at reperfusion.
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PMID:Inhibition of mitochondrial permeability transition prevents mitochondrial dysfunction, cytochrome c release and apoptosis induced by heart ischemia. 1268 12


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