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)

The mechanism by which apoptosis is induced by local anesthetic bupivacaine, a potent uncoupler of mitochondrial oxidative phosphorylation, was investigated. In promyelocytic leukemia cells HL-60, bupivacaine induced formation of apoptotic bodies and DNA fragmentation in a time- and dose-dependent manner similar to typical apoptosis inducers. Caspase-3, -8 and -9, which play a pivotal role in the initiation and execution of receptor- or mitochondria-mediated apoptosis, were all clearly activated by bupivacaine in good correlation with the degree of DNA fragmentation. However, bupivacaine did not induce either mitochondrial permeability transition (PT) or release of cytochrome c in experiments with isolated mitochondria. These results suggest that an indirect action of bupivacaine on mitochondria occurs and that other mechanisms may be involved in bupivacaine-induced apoptosis. To obtain additional information concerning the mechanism of action involved in bupivacaine-induced apoptosis, a microarray analysis of gene expression in bupivacaine-treated HL-60 cells was carried out. Several apoptosis-related genes were found to be transcriptionally regulated by bupivacaine using a high-density cDNA microarray. The expression levels of heat shock protein 70 (HSP70), c-jun and c-fos genes were remarkably up-regulated and those of c-myc and poly (ADP ribose) polymerase (PARP) were down-regulated in bupivacaine-treated cells. These results are of value in developing a better understanding of the molecular mechanism of bupivacaine-induced apoptosis leading to neuro- or myotoxicity.
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PMID:Biochemical and microarray analyses of bupivacaine-induced apoptosis. 1282 May 40

Hypoxia due to uterine vasoconstriction may be an important cause of the teratogenic consequences of prenatal cocaine exposure. We used immediate-early gene and cleaved caspase-3 expression patterns to monitor fetal brain regions affected by intrauterine hypoxia and prenatal cocaine and pretreatment with the D1 dopamine receptor antagonist SCH 23390 to determine how much of the induction observed was due to dopamine. Both cocaine binge (3 x 15 mg/kg) and perinatal asphyxia on embryonic day 22 (E22) induced c-fos in the striatum as well as in several other brain regions within 3 h after treatment. Maternal administration of a D1 dopamine antagonist, SCH 23390, before either cocaine or asphyxia exposure dramatically reduced the numbers of Fos-immunoreactive cells in the striatum as well as in many other brain regions. Cells immunoreactive for cleaved caspase-3 expression were more numerous after perinatal asphyxia than after prenatal cocaine exposure in most brain regions 24 h after C-section. SCH 23390 decreased caspase-3 expression after both birth insults, indicating that the increased incidence of apoptosis is related to overactivation of dopaminergic pathways.
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PMID:Blockade of D1 dopaminergic transmission alleviates c-fos induction and cleaved caspase-3 expression in the brains of rat pups exposed to prenatal cocaine or perinatal asphyxia. 1282 77

Methamphetamine (METH)-induced neurotoxicity is characterized by a long-lasting depletion of striatal dopamine (DA) and serotonin as well as damage to striatal dopaminergic and serotonergic nerve terminals. Several hypotheses regarding the mechanism underlying METH-induced neurotoxicity have been proposed. In particular, it is thought that endogenous DA in the striatum may play an important role in mediating METH-induced neuronal damage. This hypothesis is based on the observation of free radical formation and oxidative stress produced by auto-oxidation of DA consequent to its displacement from synaptic vesicles to cytoplasm. In addition, METH-induced neurotoxicity may be linked to the glutamate and nitric oxide systems within the striatum. Moreover, using knockout mice lacking the DA transporter, the vesicular monoamine transporter 2, c-fos, or nitric oxide synthetase, it was determined that these factors may be connected in some way to METH-induced neurotoxicity. Finally a role for apoptosis in METH-induced neurotoxicity has also been established including evidence of protection of bcl-2, expression of p53 protein, and terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling (TUNEL), activity of caspase-3. The neuronal damage induced by METH may reflect neurological disorders such as autism and Parkinson's disease.
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PMID:Current research on methamphetamine-induced neurotoxicity: animal models of monoamine disruption. 1289 Aug 83

5-Fluoro-2'-deoxyuridine (FUdR) inhibits thymidylate synthase (TS). The inhibition of TS causes an imbalance of intracellular deoxyribonucleoside triphosphate (dNTP) pools which subsequently induced cell death. We investigated the molecular mechanisms of cell death after treated with FUdR in F28-7 strain (which induced necrosis) and F28-7-A strain (mutant of F28-7 strain which induced apoptosis). After treated with FUdR, we observed different size of DNA fragmentations. F28-7 strain induced DNA cleavaged into 100-200 kbp fragments and F28-7-A strain induced DNA cleavaged into oligonucleosomal sized fragments. In F28-7 strain, FUdR induced the increased mRNA level of c-jun, c-fos and c-myc genes, caspase-3 like protease activity and the changes of mitochondrial membrane potential which were greater and earlier than those of F28-7-A strain. On the other hand, F28-7-A strain induced release of cytochrome c from mitochondrial, but not F28-7 strain. Furthermore, caspase-5 inhibitor was strongly inhibited the cell death of F28-7 strain. We suggest that it is concerned with intensity of intracellular signals in the cell death of F28-7 strain and F28-7-A strain.
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PMID:Mechanisms of cell death induced by 5-fluoro-2'-deoxyuridine (FUdR)--necrosis or apoptosis after treated with FUdR. 1290 97

Cytosine arabinoside (ara-C) is a nucleoside analog used in the treatment of hematologic malignancies. One of the major side effects of ara-C chemotherapy is neurotoxicity. In this study, we have further characterized the cell death induced by ara-C in sympathetic neurons. Similar to neurons undergoing trophic factor deprivation-induced apoptosis, ara-C-exposed neurons became hypometabolic before death and upregulated c-myb, c-fos, and Bim. Bax deletion delayed, but did not prevent, ara-C toxicity. Neurons died by apoptosis, indicated by the release of mitochondrial cytochrome-c and caspase-3 activation. p53-deficient neurons demonstrated decreased sensitivity to ara-C, but neither p53 nor multiple p53-regulated genes were induced. Mature neurons showed increased ara-C resistance. These results demonstrate that molecular mechanisms underlying ara-C-induced death are similar to those responsible for trophic factor deprivation-induced apoptosis. However, substantial differences in neuronal death after these two distinct stress stimuli exist since ara-C toxicity, unlike the developmental death, can proceed in the absence of Bax.
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PMID:Cytosine arabinoside rapidly activates Bax-dependent apoptosis and a delayed Bax-independent death pathway in sympathetic neurons. 1293 79

The stress-activated protein kinase c-Jun NH2-terminal kinase (JNK) is a central signal for interleukin-1beta (IL-1beta)-induced apoptosis in insulin-producing beta-cells. The cell-permeable peptide inhibitor of JNK (JNKI1), that introduces the JNK binding domain (JBD) of the scaffold protein islet-brain 1 (IB1) inside cells, effectively prevents beta-cell death caused by this cytokine. To define the molecular targets of JNK involved in cytokine-induced beta-cell apoptosis we investigated whether JNKI1 or stable expression of JBD affected the expression of selected pro- and anti-apoptotic genes induced in rat (RIN-5AH-T2B) and mouse (betaTC3) insulinoma cells exposed to IL-1beta. Inhibition of JNK significantly reduced phosphorylation of the specific JNK substrate c-Jun (p<0.05), IL-1beta-induced apoptosis (p<0.001), and IL-1beta-mediated c-fos gene expression. However, neither JNKI1 nor JBD did influence IL-1beta-induced NO synthesis or iNOS expression or the transcription of the genes encoding mitochondrial manganese superoxide dismutase (MnSOD), catalase (CAT), glutathione peroxidase (GPx), glutathione-S-transferase rho (GSTrho), heat shock protein (HSP) 70, IL-1beta-converting enzyme (ICE), caspase-3, apoptosis-inducing factor (AIF), Bcl-2 or Bcl-xL. We suggest that the anti-apoptotic effect of JNK inhibition by JBD is independent of the transcription of major pro- and anti-apoptotic genes, but may be exerted at the translational or posttranslational level.
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PMID:The JNK binding domain of islet-brain 1 inhibits IL-1 induced JNK activity and apoptosis but not the transcription of key proapoptotic or protective genes in insulin-secreting cell lines. 1456 87

We have examined mitochondrial membranes and molecular hallmarks of apoptosis in response to increasing concentrations of 1-Methyl, 4-phenyl, Pyridinium ion (MPP(+)) in SK-N-SH neurons and have evaluated the neuroprotective potential of Selegiline with a primary objective to explore its mechanism(s) of neuroprotection. MPP(+)-induced apoptosis was characterized by spherical appearance, suppressed neuritogenesis, phosphatidyl serine externalization, plasma membrane perforations, mitochondrial membrane potential (Delta Psi) collapse, mitochondrial aggregation, and nuclear DNA fragmentation and condensation. At lower concentrations, MPP(+) (10-100 microM) produced mitochondrial swelling and loss of cristae, and at higher concentrations (300-500 microM), degeneration and aggregation of mitochondrial membranes in the peri-nuclear region, which were attenuated by Selegiline (10-50 microM) pre-treatment. At still higher concentrations, MPP(+) (>500 microM) produced necrotic changes represented by mitochondrial and plasma membrane ballooning and perforations. Selegiline provided partial neuroprotection at higher concentrations of MPP(+). MPP(+)-induced increases in reactive oxygen species, lipid peroxidation, cytochrome-C release, necrosis factor kappa-B (NF-kappa-B) activation, 8-hydroxy, 2 deoxy guanosine synthesis, alpha-synuclein indices, and reductions in glutathione, ATP, and superoxide dismutase were attenuated by Selegiline. Selegiline also attenuated MPP(+)-induced transcriptional activation of c-fos, c-jun, GAPDH, and caspase-3, suggesting that it may provide neuroprotection by preserving mitochondrial membranes, by attenuating molecular markers of apoptosis, by scavenging free radicals, and by regulating immediate early genes involved in neurodegeneration.
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PMID:Neuroprotective actions of Selegiline in inhibiting 1-methyl, 4-phenyl, pyridinium ion (MPP+)-induced apoptosis in SK-N-SH neurons. 1472 76

Poly-drug abuse during pregnancy is a major public health concern. The combined effects of cocaine and ethanol may be more injurious to the fetal nervous system than either drug alone. In order to identify areas of the brain vulnerable to concurrent exposure, we examined the expression of the immediate-early gene (IEG), c-fos, and cleaved caspase-3, the 'executioner' caspase in apoptosis. Pregnant rats were treated with either ethanol diet, cocaine binge, or both. At birth, the brains of fetuses exposed to cocaine exhibited an increase in Fos immunoreactivity in many brain regions. Prenatal exposure to ethanol did not increase Fos expression above that observed in control rats at early points after birth. However, Fos expression at 24 h after birth was higher after ethanol diet treatment in several brain regions, such as the amygdala, ventromedial hypothalamus, and medial thalamus. Only in the striatum did the combination of ethanol and cocaine cause greater Fos expression than either prenatal cocaine or ethanol alone. Increased cleaved caspase-3 expression was observed at the 24-h time point for both ethanol- and cocaine-exposed brains, most notably in the septum, retrosplenial cortex, and the hippocampus. Concurrent ethanol and cocaine exposure did not elevate cleaved caspase-3 expression beyond that of either drug alone. Analysis of the extent of c-fos and caspase-3 induction did not indicate a consistent relationship of expression in any of the drug treatment groups nor in any brain region. These results indicate that both prenatal cocaine and prenatal ethanol exposure increase Fos and cleaved caspase-3 expression in the developing brain in a time- and region-dependent manner, but that the combination of low-dose, chronic ethanol, and binge cocaine does not cause greater apoptosis.
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PMID:c-fos and cleaved caspase-3 expression after perinatal exposure to ethanol, cocaine, or the combination of both drugs. 1474 56

Nicotinamide (vitamin B(3)) reduces the infarct volume following focal cerebral ischemia in rats; however, its mechanism of action has not been reported. After cerebral ischemia and/or reperfusion, reactive oxygen species (ROS) and reactive nitrogen species may be generated by inflammatory cells through several cellular pathways, which can lead to intracellular calcium influx and cell damage. Therefore, we investigated the mechanisms of action of nicotinamide in neuroprotection under conditions of hypoxia/reoxygenation. Results showed that nicotinamide significantly protected rat primary cortical cells from hypoxia by reducing lactate dehydrogenase release with 1 h of oxygen-glucose deprivation (OGD) stress. ROS production and calcium influx in neuronal cells during OGD were dose-dependently diminished by up to 10 mM nicotinamide (p < 0.01). This effect was further examined with OGD/reoxygenation (H/R). Cells were stained with the fluorescent dye 4,6-diamidino-2-phenylindole (DAPI) or antibodies against anti-microtubule-associated protein-2 and cleaved caspase-3. Apoptotic cells were studied using Western blotting of cytochrome c and cleaved caspase-3. Results showed that vitamin B(3) reduced cell injury, caspase-3 cleavage and nuclear condensation (DAPI staining) in neuronal cells under H/R. In addition, nicotinamide diminished c-fos and zif268 immediate-early gene expressions following OGD. Taken together, these results indicate that the neuroprotective effect of nicotinamide might occur through these mechanisms in this in vitro ischemia/reperfusion model.
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PMID:Protective effect of nicotinamide on neuronal cells under oxygen and glucose deprivation and hypoxia/reoxygenation. 1515 82

Corticotropin-releasing factor (CRF), in addition to its role as a hormone in the stress response, functions as a neuromodulator in the cerebellum, where it enhances both the spontaneous and amino acid induced firing rate of Purkinje cells. In the cerebellum, CRF and its two types of receptors (CRF-R(1) and CRF-R(2)) are present during cerebellar development at ages that precede the onset of afferent ingrowth and synaptogenesis, suggesting a distinct role during early cerebellar development. The present study was undertaken to determine whether CRF enhances the survival of cerebellar neurons, in particular GABAergic neurons. Primary cultures of cerebellar neurons obtained from embryonic day 18 mice were composed primarily, but not exclusively, of GABAergic neurons. Although CRF-R(1) is present in most neurons in this culture system, when CRF was added to the medium, no significant change in neuronal survival was observed when compared to control cultures. It is possible that a role for CRF is not seen in growth-promoting culture medium at the plating density chosen for this study and may only be evident when the cells have been exposed to conditions that reduce the likelihood of survival, such as exposure to neurotoxins such as AraC. We propose that, because AraC increases the number of cleaved caspase-3 positive cells, indicating apoptosis, it is possible that a CRF effect involves an inhibition of the apoptotic pathway. Cultures treated with AraC had a decrease in the total number of GABAergic neurons and an increase in apoptotic cells as measured with the apoptotic marker cleaved caspase-3. Co-treatment with CRF rescued many GABAergic neurons. It is interesting to note that apoptotic cells do not exhibit GABA or c-fos positive immunolabeling. Thus, these data support the concept that CRF plays a neuroprotective role in the survival of GABAergic cerebellar neurons in culture after exposure to a neurotoxin.
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PMID:Corticotropin releasing factor enhances survival of cultured GABAergic cerebellar neurons after exposure to a neurotoxin. 1524 98


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