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)

The aim was to study the effects of an NMDA receptor antagonist on caspase-3 activation and DNA fragmentation after hypoxia-ischemia (HI) in 7-day-old rats. Animals were treated with vehicle or MK-801 (0.5 mg/kg) directly after HI and sacrificed 8, 24 or 72h later. MK-801 reduced injury (by 53%), cells positive for active caspase-3 (by 39%) and DNA fragmentation (by 79%) in the cerebral cortex. Furthermore, MK-801 significantly decreased caspase-3 activity, and Western blots revealed a tendency towards decreased proteolytic cleavage of the caspase-3 proform. The data imply that NMDA receptors are involved in the activation of apoptotic processes in the immature brain after HI.
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PMID:NMDA blockade attenuates caspase-3 activation and DNA fragmentation after neonatal hypoxia-ischemia. 1100 50

We report here that activation of the caspase-3 apoptotic cascade in spinal cord injury is regulated, in part, by calcineurin-mediated BAD dephosphorylation. BAD, a proapoptotic member of the bcl-2 gene family, is rapidly dephosphorylated after injury, dissociates from 14-3-3 in the cytosol, and translocates to the mitochondria of neurons where it binds to Bcl-x(L). Pretreatment of animals with FK506, a potent inhibitor of calcineurin activity, or MK801, an NMDA glutamate receptor antagonist, blocked BAD dephosphorylation and abolished activation of the caspase-3 apoptotic cascade. These findings extend previous in vitro observations and are the first to implicate the involvement of glutamate-mediated calcineurin activation and BAD dephosphorylation as upstream, premitochondrial signaling events leading to caspase-3 activation in traumatic spinal cord injury.
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PMID:Calcineurin-mediated BAD dephosphorylation activates the caspase-3 apoptotic cascade in traumatic spinal cord injury. 1100 81

Interleukin-10 (IL-10) has been shown to reduce neuronal degeneration after CNS injury. However, the molecular mechanisms underlying the neuroprotective properties of this cytokine are still under investigation. Glutamate exacerbates secondary injury caused by trauma. Thus, we examined whether IL-10 prevents glutamate-mediated cell death. We used rat cerebellar granule cells in culture because these neurons undergo apoptosis upon exposure to toxic concentrations of glutamate (100-500 microm) or NMDA (300 microm). Pretreatment of cerebellar granule cells with IL-10 (1-50 ng/ml) elicited a dose- and time-dependent reduction of glutamate-induced excitotoxicity. Most importantly, IL-10 reduced the number of apoptotic cells when added to the cultures together or 1 hr after glutamate. Using patch-clamping and fluorescence Ca(2+) imaging techniques, we examined whether IL-10 prevents glutamate toxicity by blocking the function of NMDA channel. IL-10 failed to affect NMDA channel properties and to reduce NMDA-mediated rise in intracellular Ca(2+). Thus, this cytokine appears to prevent glutamate toxicity by a mechanism unrelated to a blockade of NMDA receptor function. Various proteases, such as caspase-3, and transcription factors, such as nuclear factor kappaB (NF-kappaB), have been proposed to participate in glutamate-mediated apoptosis. Thus, we examined whether IL-10 modulates the activity of these apoptotic markers. IL-10 blocked both the glutamate-mediated induction of caspase-3 as well as NF-kappaB DNA binding activity, suggesting that the neuroprotective properties of IL-10 may rely on its ability to block the activity of proapoptotic proteins.
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PMID:Interleukin-10 prevents glutamate-mediated cerebellar granule cell death by blocking caspase-3-like activity. 1131 95

Excitotoxic studies using isolated chick embryo retina indicated that such an in vitro model provides a valid tool to characterize the effect of different agonists for subtypes of glutamate ionotropic receptors. In retinas maintained for 24 h in a Krebs medium, after a brief exposure (30 min) to glutamate agonists, we compared the effects produced by NMDA and non-NMDA-agonists, such as kainic acid (KA) or alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA). Delayed retinal damage was assessed by measuring lactate dehydrogenase (LDH) present in the medium after exposure to the previously named agonists. Although at high concentrations, both KA and AMPA produced more relevant release than NMDA, 7-8% of total retinal LDH was released after exposure to a 50 microM concentration of non-NMDA agonists. These values were similar to those obtained after 100 microM NMDA. In this regard, retinal tissue appeared to be less sensitive to excitotoxicity based on the activation of NMDA receptor subtype. All three agents produced histopathological lesions typical for excitotoxic damage. A delayed form of excitotoxicity observed in retina segments was predominated by necrotic features. However, the activation of apoptotic machinery early during the incubation period subsequent to brief exposure to NMDA (100 microM) was also present. The activation of caspase enzymes was studied by a fluorometric protease activity assay as well as by western blot analysis. Caspase-3-like activity reached the highest value within 3 h of incubation after exposure to excitotoxin, then the level of enzyme activity declined to lower values. As confirmed by a time-related appearance of TUNEL-positive nuclei, apoptotic features appeared to be specific for retina response to NMDA. In contrast, the exposure to a 50 microM concentration of KA or AMPA induced necrotic cell damage which was evident through the incubation, leading to a delayed mechanism of excitotoxicity. These observations provide evidence that in the retinal model, with regard to agonist concentrations and subtype of glutamate receptors, the cascade of events leading to excitotoxicity may result in either apoptotic or necrotic neuronal cell damage.
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PMID:Apoptosis and necrosis occurring in excitotoxic cell death in isolated chick embryo retina. 1159 59

The NMDA-type glutamate receptor is a predominant mediator of excitotoxicity in the immature brain due to overexpression of the receptor in the developing brain. Within the development period however, the extent of NMDA receptor mediated processes including hypoxia-induced excitotoxicity may depend on the ontogeny of the NMDA receptor recognition and modulation sites, and subunits leading to altered function of the ion-channel comples. The function of the receptor may be modified by intracellular mechanisms such as phosphorylation/dephosphorylation, nitration, and generation of free radicals including nitric oxide. The susceptibility of the developing brain to hypoxia depends on several factors: the lipid composition of the brain cell membrane; the rate of membrane lipid peroxidation and the status of anti-oxidant defenses; the development and modulation of the NMDA receptor sites; the intracellular Ca(2+) influx mechanisms; expression of apoptotic and antiapoptotic genes such as Bax and Bcl-2; and the activation of initiator caspases and caspase-3, the "executioner" of cell death. The developmental status of these cellular mechanisms and their response to hypoxia determine the fate of the hypoxic cell in the developing brain in the fetus and the newborn.
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PMID:NMDA receptor and neonatal hypoxic brain injury. 1175 18

1. We examined the role of non-NMDA receptors in kainic acid (KA)-induced apoptosis in cultures of rat cerebellar granule cells (CGCs). KA (1 - 500 microM) induced cell death in a concentration-dependent manner, which was prevented by NBQX and GYKI 52466, non-NMDA receptor antagonists. Moreover, AMPA blocked KA-induced excitotoxicity, through desensitization of AMPA receptors. 2. Similarly, KA raised the intracellular calcium concentration of CGCs, which was inhibited by NBQX and GYKI 52466. Again, AMPA (100 microM) abolished the KA (100 microM)-induced increase in intracellular calcium concentration. 3. KA-induced cell death in CGCs had apoptotic features, which were determined morphologically, by DNA fragmentation, and by expression of the prostate apoptosis response-4 protein (Par-4). 5. KA (500 microM) slightly (18%) increased caspase-3 activity, which was strongly enhanced by colchicine (1 microM), an apoptotic stimulus. However, neither Z-VAD.fmk, a pan-caspase inhibitor, nor the more specific caspase-3 inhibitor, Ac-DEVD-CHO, prevented KA-induced cell death or apoptosis. In contrast, both drugs inhibited colchicine-induced apoptosis. 5. The calpain inhibitor ALLN had no effect on KA or colchicine-induced neurotoxicity. 6. Our findings indicate that colchicine-induced apoptosis in CGCs is mediated by caspase-3 activation, unlike KA-induced apoptosis.
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PMID:Kainic acid-induced neuronal cell death in cerebellar granule cells is not prevented by caspase inhibitors. 1187 39

Recently several methods have been described for triggering extensive apoptotic neurodegeneration in the developing in vivo mammalian brain. These methods include treatment with drugs that block NMDA glutamate receptors, drugs that promote GABA(A) neurotransmission, or treatment with ethanol, which has both NMDA antagonist and GABAmimetic properties. A single intoxication episode induced by any of these agents is sufficient to cause widespread neurodegeneration throughout many brain regions. The cell death process transpires rapidly from early to late stages within several hours. As the neurons die, they become TUNEL positive and show, by both light and electron microscopy, all of the classical morphological characteristics of apoptosis. In the present study, using immunocytochemical methods, we document that ethanol intoxication of 7-day-old infant mice causes a widespread pattern of caspase-3 activation corresponding to the pattern of apoptotic neurodegeneration that is occurring simultaneously.
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PMID:Ethanol-induced caspase-3 activation in the in vivo developing mouse brain. 1189 72

Previous work suggests N-methyl-D-aspartate receptor (NMDAR) activation may be involved in degeneration of medium-sized spiny striatal neurons in Huntington's disease (HD). Here we show that these neurons are more vulnerable to NMDAR-mediated death in a YAC transgenic FVB/N mouse model of HD expressing full-length mutant huntingtin, compared with wild-type FVB/N mice. Excitotoxic death of these neurons was increased after intrastriatal injection of quinolinate in vivo, and after NMDA but not AMPA exposure in culture. NMDA-induced cell death was abolished by an NR2B subtype-specific antagonist. In contrast, NMDAR-mediated death of cerebellar granule neurons was not enhanced, consistent with cell-type and NMDAR subtype specificity. Moreover, increased NMDA-evoked current amplitude and caspase-3 activity were observed in transgenic striatal neurons. Our data support a role for NR2B-subtype NMDAR activation as a trigger for selective neuronal degeneration in HD.
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PMID:Increased sensitivity to N-methyl-D-aspartate receptor-mediated excitotoxicity in a mouse model of Huntington's disease. 1190 90

Cysteine proteases of the caspase family play central roles in excecuting the cell death process in neurons during development of the nervous system and in neurodegenerative disorders. Recent findings suggest that caspases may also play roles in modulating neuronal plasticity in the absence of cell death. We previously reported that caspases can be activated in dendrites and synapses in response to activation of glutamate receptors. In the present study we demonstrate that the GluR1 subunit of the AMPA subtype of glutamate receptor is directly cleaved by caspase-3, and provide evidence that the cleavage of this subunit modulates neuronal excitability in ways that suggest important roles for caspases in regulating synaptic plasticity and cell survival. Whole-cell patch-clamp recordings in cultured rat hippocampal neurons showed that caspase activation in response to apoptotic stimuli selectively decreases AMPA channel activity without decreasing NMDA channel activity. Perfusion of neurons with recombinant caspase-3 resulted in a decreased AMPA current, demonstrating that caspase-3 activity is sufficient to suppress neuronal responses to glutamate. Exposure of radiolabeled GluR1 to recombinant caspase-3 resulted in cleavage of GluR1, demonstrating that this glutamate receptor protein is a direct substrate of this caspase. Our findings suggest roles for caspases in the modulation of neuronal excitability in physiological settings, and also identify a mechanism whereby caspases ensure that neurons die by apoptosis rather than excitotoxic necrosis in developmental and pathological settings.
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PMID:Direct cleavage of AMPA receptor subunit GluR1 and suppression of AMPA currents by caspase-3: implications for synaptic plasticity and excitotoxic neuronal death. 1202 17

Cell signaling commanding death or survival in human epileptic hippocampus is difficult to trace because of the long interval between the beginning of symptoms and the sampling of damaged cerebral tissue for neuropathological examination. Intraperitoneal injection of the glutamate analogue kainic acid (KA) is a useful tool to analyze the effects of seizures and the excitotoxic damage in the rodent hippocampus. KA acts on NMDA and KA receptors, whereas it has little impact on AMPA receptors. Neurons of the hilus and CA3 neurons are primary targets of KA, although parvalbumin containing GABAergic neurons are less vulnerable than glutamatergic neurons. Immediate responses to KA are hsp 70 mRNA induction and HSP 70/72 protein expression, as well as c fos and c jun mRNA, and c Fos and c Jun protein expression in the hippocampus. Yet increased c Fos and c Jun expression is not a predictor of cell death or cell survival. In contrast, the tissular plasminogen activator (tPA) and the membrane Fas/Fas L signaling pathway probably have a role in facilitating cell death following KA injection. The involvement of other pathways remains controversial. Increased expression of the pro apoptotic Bax together with decreased Bcl 2 suggests Bax mediated apoptosis. Activation of the mitochondrial pathway includes leakage of citochrome c to the cytosol and activation of the caspase cascade leading to apoptosis. However, other studies have emphasized the limited expression of caspase 3, the main executioner of apoptosis, and the relevance of necrosis as the main form of cell death following KA excitotoxicity. Phosphorylation dependent activation of several kinases, including MAPK, p 38 and JNK/SAPK, and their substrates has been found in KA treated animals. Decreased CREBp expression is associated with cell death whereas increased ATF 2P and Elk 1P are associated with cell survival. Trophic factors probably do not play a significant role during the early stages of hippocanmpal damage but they are important in the remodeling of the granukle cells and the sprouting of mossy fibers to the molecular layer of the dentate gyrus. This abnormal regeneration, in turn, facilitates seizure recruitment and the chronic maintenance of convulsions.
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PMID:[Cell signaling in the epileptic hippocampus]. 1204 Apr 99

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