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)

In Jurkat cells Bid was cleaved upon activation of the Fas receptor with an anti-Fas antibody. The caspase-8 inhibitor benzyloxycarbonyl-Ile-Glu(OMe)-Thr-Asp(OMe)-CH(2)F (IETD) prevented the cleavage of Bid and the loss of viability. The nuclear enzyme poly(ADP-ribose)polymerase (PARP) was also cleaved upon the activation of caspases, and IETD similarly prevented PARP cleavage. The PARP inhibitor 3-aminobenzamide (3-AB) restored the cell killing in the presence of IETD, an effect that occurred without restoration of the cleavage of Bid or PARP. In the presence of 3-AB and IETD, translocation occurred of full-length Bid to the mitochondria. The induction of the mitochondrial permeability transition (MPT) was documented by the cyclosporin A (CyA) sensitivity of the release of cytochrome c, the release of malate dehydrogenase from the mitochondrial matrix, the loss of the mitochondrial membrane potential, and the pronounced swelling of these organelles, as assessed by electron microscopy. In addition to preventing all evidence of the MPT, CyA prevented the loss of cell viability, without effect on the cleavage of either Bid or PARP. The prevention of PARP cleavage by inhibition of caspase-3 resulted in a 10-fold activation of the enzyme and a resultant depletion of NAD and ATP. The PARP inhibitor 3-AB prevented the loss of NAD and ATP. Depletion of ATP by metabolic inhibitors similarly prevented the cell killing. It is concluded that the cleaving of PARP in Fas-mediated apoptosis allowed expression of an energy-dependent cell death program that included the translocation of full-length Bid to the mitochondria with induction of the MPT.
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PMID:Cytochrome c release upon Fas receptor activation depends on translocation of full-length bid and the induction of the mitochondrial permeability transition. 1179 Jul 91

Due to the dominating roles that caspases play in the apoptotic cascade, their activities appear to be a primary factor in the death pathway (apoptosis versus oncosis/necrosis) decision. In murine FL5.12 proB lymphocytes, the cellular consequences of acrolein treatment included a lack of typical apoptotic features in preference to oncosis/necrosis. Oncosis/necrosis was apparent by detection of a reduction in intracellular ATP concentration, increased plasma membrane leakage (measured by LDH release and flow cytometric detection of propidium iodide uptake) and morphological criteria. Analysis of acrolein-treated cell lysates or recombinant caspase enzymes showed overall dose-dependent decreases in caspase-3, -8 and -9 activities. In addition to acrolein's effect on intracellular caspases, it was also able to alter caspase-dependent apoptosis induced by secondary treatment with etoposide or following cytokine withdrawal. Acrolein at doses > or =20 microM circumvented etoposide or interleukin-3 withdrawal induced apoptosis. When acrolein was combined with mechlorethamine, another alkylating agent not dependent on caspases for its cell death signaling, necrosis was increased in a dose-dependent manner. Overall, these data suggest that caspase inhibition plays an important role in the cell death pathway decision, particularly with treatments dependent on the caspase cascade to induce apoptosis.
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PMID:Acrolein-induced cell death: a caspase-influenced decision between apoptosis and oncosis/necrosis. 1180 30

Disruption of mitochondrial electron transport and opening of the so-called mitochondrial permeability transition pores (PTPs) are early events in apoptotic cell death and may be caused by the uncoupler of mitochondrial oxidation and phosphorylation, carbonyl cyanide p-trifluoromethoxyphenylhydrazone (FCCP). We investigated the cellular toxicity of FCCP in HL60 and CCRF-CEM cells alone or in combination with the known apoptosis inducers such as inhibitor of serine/threonine protein kinases staurosporine (Sts) and protein kinase C inhibitor chelerythrine. FCCP induced apoptotic cell death in both cell lines in a dose-dependent manner, and we were able to demonstrate an appearance of caspase-3-dependent PARP cleavage fragments with Western blot and the appearance of large (15-50 kb) DNA fragments using pulsed-field gel electrophoresis. After 2 hr of incubation with Che or Sts more than half of the cells had died by apoptosis. We observed a statistically significant delay in Sts- and Che-induced apoptotic cell death in CCRF-CEM cells when the cells were preincubated with FCCP but not with zVAD-FMK: about 50% more cells survived after pre-treatment with FCCP, as compared to 1 hr treatment with Che alone (P<0.05), and 25% more cells were alive after 6 hr of treatment, as compared to 6 hr exposure to Sts alone (P<0.05). The protective effect of FCCP was, however, transient and lasted only 6 hr. Treatment with aurintricarboxylic acid completely prevented Che- and Sts-induced apoptotic cell death in CCRF-CEM and HL60 cells. Incubation with Che resulted in a drop in the intracellular ATP content, predominantly distinctive in HL60, and in NAD(+) content in CCRF-CEM cells. Both ATP and NAD(+) drop were prevented with ATA, but not with FCCP or zVAD. Our data suggest that treatment with uncouplers of oxidative phosphorylation can induce apoptotic cell death in haematopoietic cell lines. However, when used in combination with serine/threonine protein kinase inhibitors FCCP can even prevent apoptosis.
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PMID:Modulation of apoptosis by mitochondrial uncouplers: apoptosis-delaying features despite intrinsic cytotoxicity. 1185 98

Oxidative stress induces apoptosis in liver parenchymal cells. The present study demonstrates that the substitution of fructose for glucose as sole carbon source in the incubation medium reduced apoptosis due to reoxygenation up to 50% in cultured rat hepatocytes. This anti-apoptotic action of fructose cannot be explained by the effects of this sugar on the intracellular ATP concentration and the ATP/ADP ratio. Rather, the suppression of apoptosis by fructose seems to be a consequence of remarkably higher intracellular levels of glutathione observed during reoxygenation in fructose-fed hepatocytes in contrast to glucose-fed ones. With fructose as substrate, the generation of excess reactive oxygen species (ROS) during the initial phase of reoxygenation was strongly reduced. With respect to ROS reduction and stabilization of the cellular glutathione pool fructose was found as efficient as a pretreatment of glucose fed cells with N-acetyl-L-cysteine. The enhanced metabolization of ROS by the glutathione/glutathione peroxidase system in fructose-cultured hepatocytes under reoxygenation was expected to improve their mitochondrial status so that late events in the apoptotic pathway are suppressed. This could be confirmed by the reduced release of cytochrome c from mitochondria into the cytosol as well as by the observed decrease of caspase-3 activity during reoxygenation.
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PMID:Fructose inhibits apoptosis induced by reoxygenation in rat hepatocytes by decreasing reactive oxygen species via stabilization of the glutathione pool. 1185 82

The combined effects of hyperthermia at 44 degrees C and local anesthetics on apoptosis in human histiocytic lymphoma U937 cells were investigated. When the cells were exposed to hyperthermia for l0 min marginal DNA fragmentation and nuclear fragmentation were observed. In the presence of amide-type local anesthetics further enhancement was found depending on concentration. The order of the concentration required for maximum induction was the reverse order of the lipophilicity (prilocaine > lidocaine > bupivacaine). Western blotting revealed that in hyperthermia there was initial release of Ca(2+) from the intracellular store site as indicated by increased expression of the type 1 inositol-1,4,5-trisphosphate receptor. However, the combination with lidocaine did not induce any further enhancement. Lidocaine enhanced the decrease in ATP content and the increase in intracellular Ca(2+) concentration in individual cells induced by hyperthermia. In addition, superoxide formation, decrease in the mitochondrial membrane potential, and activation of intracellular caspase-3 were found in the cells treated with hyperthermia and lidocaine. All of these were suppressed in part in the presence of the intracellular Ca(2+) ion chelator BAPTA-AM (bis-(O-aminophenoxy)-ethane-N,N,N',N'-tetraacetic acid-acetoxymethyl). The present results indicate that local anesthetics at optimal concentrations enhance hyperthermia-induced apoptosis via Ca(2+)- and mitochondria-dependent pathways. Initial release of Ca(2+) from intracellular store sites caused by hyperthermia and followed by the subsequent increase in the intracellular Ca(2+) concentration and the additional activation of the mitochondrial caspase-dependent pathway (partly regulated by intracellular Ca(2+) concentration) plays a crucial role in the enhancement of apoptosis induced by the combination of hyperthermia and lidocaine.
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PMID:Enhancement of hyperthermia-induced apoptosis by local anesthetics on human histiocytic lymphoma U937 cells. 1186 40

Intracellular glutathione (GSH) depletion induced by buthionine sulfoximine (BSO) caused cell death that seemed to be apoptosis in C6 rat glioma cells. Arachidonic acid (AA) promoted BSO-induced cell death by accumulating reactive oxygen species (ROS) or hydroperoxides. AA inhibited caspase-3 activation and internucleosomal DNA fragmentation during the BSO-induced GSH depletion. Furthermore, AA reduced intracellular ATP content, induced dysfunction of mitochondrial membrane and enhanced 8-hydroxy-2'-deoxyguanosine (8-OH-dG) production. There was significant increase of 12-lipoxygenase activity in the presence of AA under the BSO-induced GSH depletion in C6 cells. These results suggest that AA promotes cell death by changing to necrosis from apoptosis through lipid peroxidation initiated by lipid hydroperoxides produced by 12-lipoxygenase under the GSH depletion in C6 cells. Some ROS such as hydroperoxide produced by unknown pathway make hydroxy radicals and induce 8-OH-dG formation in the cells. The conversion of apoptosis to necrosis may be a possible event under GSH depleted conditions.
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PMID:Arachidonic acid converts the glutathione depletion-induced apoptosis to necrosis by promoting lipid peroxidation and reducing caspase-3 activity in rat glioma cells. 1191 80

Parkinson's disease is characterized by a loss of dopaminergic nigrostriatal neurons. This neuronal loss is mimicked by the neurotoxin 1-methyl-4-phenylpyridinium (MPP+). MPP+ toxicity is mediated through inhibition of mitochondrial complex I, decreasing ATP production, and upregulation of oxygen radicals. There is evidence that the cell death induced by MPP+ is apoptotic and that inhibition of caspases may be neuroprotective. In primary cultures of rat mesencephalic dopaminergic neurons, MPP+ treatment decreased the number of surviving dopaminergic neurons in the cultures and the ability of the neurons to take up [3H]dopamine ([3H]DA). Caspase inhibition using the broad-spectrum inhibitor benzyloxycarbonyl-Val-Ala-Asp-fluoromethylketone (zVAD-fmk) spared MPP+-treated dopaminergic neurons and increased somatic size. There was a partial restoration of neurite length in zVAD-fmk-treated cultures, but little restoration of [3H]DA uptake. Peptide inhibitors of caspases 2, 3, and 9, but not of caspase 1, caused significant neuroprotection. Two novel caspase inhibitors were tested for neuroprotection, a broad spectrum inhibitor and a selective caspase 3 inhibitor; both inhibitors increased survival to >90% of control. No neuroprotection was observed with an inactive control compound. MPP+ treatment caused chromatin condensation in dopaminergic neurons and increased expression of activated caspase 3. Inhibition of caspases with either zVAD-fmk or a selective caspase 3 inhibitor decreased the number of apoptotic profiles, but not expression of the active caspase. We conclude that MPP+ toxicity in primary dopaminergic neurons involves activation of a pathway terminating in caspase 3 activation, but that other mechanisms may underlie the neurite loss.
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PMID:Caspase inhibitors attenuate 1-methyl-4-phenylpyridinium toxicity in primary cultures of mesencephalic dopaminergic neurons. 1192 29

Alterations in iron levels are likely to influence the biological actions of Mn in PC12 cells, because both metals are transported via the divalent metal transporter 1 (DMT1; also Nramp2 or DCT1). Studies were performed to determine the effect of the iron chelator desferrioxamine (DfO) on Mn-induced PC12 cell death and neuronal differentiation. Cell death almost doubled when PC12 cells were exposed for 24 hr to both DfO (10 microM) and Mn (0.3 mM) as opposed to Mn alone. DfO also stimulated Mn-induced neuronal differentiation by enhancing the phosphorylation of both ERK1 and 2 and also attenuated the increase in caspase 3-like activity induced by 0.3 mM Mn by approximately 50%, indicating that caspase activation, as reported previously, does not contribute to Mn-induced PC12 cell death. DfO also affected Mn-induced suppression of mitochondrial function as indicated by an additional 16% loss of ATP formation in PC12 cells cotreated with 0.3 mM Mn. Because sequestration of iron by DfO would be expected to lead to increased transport of Mn, studies were performed to determine whether iron inhibited Mn transport in PC12 cells. Iron inhibited 54Mn transport with an IC50 of approximately 20 microM. In addition, coincubation of DfO with Mn in PC12 cells resulted in increased expression of both the iron response element-positive and the iron response element-negative forms of DMT1. Taken together, these results demonstrate that iron status is likely to have a direct effect on the uptake and biological actions of Mn and probably other divalent metals that are transported by DMT1.
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PMID:Effect of the iron chelator desferrioxamine on manganese-induced toxicity of rat pheochromocytoma (PC12) cells. 1193 51

The role of the nuclear enzyme poly(ADP-ribose) polymerase (PARP) and the ADP-ribosylation inhibitor 3-aminobenzamide (3-ABA) in the cytotoxicity induced by the novel antitumoral cyanoguanidine CHS 828 was investigated in the human lymphoma cell line U-937 GTB. Exposing cells to CHS 828 and 3-ABA in combination resulted in a 100-fold higher IC(50) compared to exposure to CHS 828 alone. CHS 828 did not activate PARP, measured as PARP-activity and formation of poly(ADP-ribose). The ATP-levels and levels of extracellular acidification rate of cells exposed to CHS 828 in combination with 3-ABA were maintained for a longer period than for cells exposed to CHS 828 alone. To characterize the mode of cell death, caspase-3 activity and gross morphology were assessed. 3-ABA increased and delayed the caspase-3 activity in cells exposed to CHS 828. Cells exposed to high concentrations of CHS 828 showed a necrotic morphology, while high concentrations of CHS 828 in combination with 3-ABA switched the mode of cell death, generating an apoptotic morphology. The results indicate that the cytotoxicity and morphology induced by CHS 828 is not due to PARP activation but can be modulated by the ADP-ribosylation inhibitor 3-ABA.
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PMID:Modulation of pyridyl cyanoguanidine (CHS 828) induced cytotoxicity by 3-aminobenzamide in U-937 GTB cells. 1199 91

Free radicals and other reactive species generated during reperfusion of ischemic tissues may cause DNA damage and, consequently, the activation of the nuclear enzyme poly(ADP-ribose) polymerase (PARP). An excessive PARP activation may result in a depletion of intracellular NAD+ and ATP, hence cell suffering and, ultimately, cell death. The present study is aimed at clarifying the role of PARP in a heart transplantation procedure and the contribution of myocyte necrosis and/or apoptosis to this process. In our experimental model, rat heart subjected to heterotopic transplantation, low temperature global ischemia (2 h) was followed by an in vivo reperfusion (30 or 60 min). Under these conditions clear signs of oxidative stress, such as lipoperoxidation and DNA strand breaks, were evident. In addition to a marked activation, accompanied by a significant NAD+ and ATP depletion, PARP protein levels significantly increased after 60 min of reperfusion. Ultrastructural analysis showed nuclear clearings, intracellular oedema and plasma membrane discontinuity. Other relevant observations were the absence of typical signs of apoptosis like caspase-3 activation and PARP cleavage, random DNA fragmentation, rise in serum levels of heart damage markers. Our results suggest that during heart transplantation, the activation of PARP, causing energy depletion, results in myocardial cell injury whose dominant feature, at least in our experimental model, is necrosis rather than apoptosis.
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PMID:Poly(ADP-ribose) polymerase activation and cell injury in the course of rat heart heterotopic transplantation. 1199 6


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