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 of this study was to investigate the mechanism of the cytotoxic effect of beta-bungarotoxin (beta-BuTX), a presynaptic neurotoxin, on rat cerebellar granule neurons (CGNs). The maturation of CGNs is characterized by the prominent dense neurite networks that became fragmented after treatment with beta-BuTX, and this cytotoxic effect of beta-BuTX on CGNs was in a dose- and time-dependant manner. The cytotoxic effect of beta-BuTX was found to be more potent than other toxins, such as alpha-BuTX, cardiotoxin, melittin, and Naja naja atra venom phospholipase A(2). Meanwhile, undifferentiated neuroblastoma neuronal cell lines, IMR-32 and SK-N-MC, and astrocytes were found to be resistant to beta-BuTX. These results indicated that only the mature CGNs were sensitive to beta-BuTX insults. None of the following chemicals: antioxidants, K(+)-channel activator, K(+)-channel antagonists, intracellular Ca(2+) chelator, Ca(2+)-channel blockers, NMDA receptor antagonists, and nitric oxide synthase inhibitor tested, were able to reduce beta-BuTX-induced cytotoxicity. However, secretory type phospholipase A(2) inhibitors (glycyrrhizin and aristolochic acid) and a free radical scavenger (5,5-dimethyl pyrroline N-oxide, DMPO) could attenuate not only beta-BuTX-induced cytotoxicity but also ROS production and caspase-3 activation. These data suggest that phospholipase A(2) activity of beta-BuTX may be responsible for free radical generation and caspase-3 activation that accounts for the observed cytotoxic effect. It is proposed that the CGNs can be a useful tool for studying interactions of the molecules on neuronal plasma membrane with beta-BuTX that mediates the specific cytotoxicity.
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PMID:Phospholipase A(2) activity of beta-bungarotoxin is essential for induction of cytotoxicity on cerebellar granule neurons. 1584 37

The role of regucalcin, a regulatory protein in intracellular signaling pathway, in cell death was investigated by using the cloned rat hepatoma H4-II-E cells overexpressing regucalcin. The hepatoma cells (wild-type) and stable regucalcin/pCXN2 transfectants were cultured for 72 h in a medium containing 10% fetal bovine serum (FBS) to obtain subconfluent monolayers. After culture for 72 h, cells were further cultured for 24-72 h in a medium containing either vehicle, insulin (10(-8) or 10(-7) M) or insulin-like growth factor-I (IGF-I; 10(-9) or 10(-8) M) in the absence of FBS. The number of wild-type cells was significantly decreased by culture for 24, 48, or 72 h in the presence of insulin (10(-8) or 10(-7) M) or IGF-I (10(-9) or 10(-8) M). Agarose gel electrophoresis showed the presence of low-molecular-weight deoxyribonucleic acid (DNA) fragments of adherent wild-type cells cultured with insulin or IGF-I. The effect of insulin or IGF-I in stimulating cell death and DNA fragmentation in hepatoma cells (wild-type) was significantly prevented in transfectants overexpressing regucalcin. Meanwhile, epinephrine (10(-6) or 10(-5) M) or transforming growth factor-beta1 (10(-13) or 10(-12) M) did not cause cell death of hepatoma cells. Insulin-induced decrease in the number of wild-type cells was significantly prevented by culture with caspase-3 inhibitor (10(-8) M), although the effect of IGF-I was not inhibited. The effect of insulin or IGF-I in inducing the death of hepatoma cells (wild-type) was significantly prevented in the presence of N omega-nitro-L-arginine methylester (NAME), an inhibitor of nitric oxide synthase. Genistein (10(-6) M), an inhibitor of protein tyrosine kinase, or vanadate (10(-5) M), an inhibitor of protein tyrosine phosphatase, caused a significant decrease in the number of hepatoma cells (wild-type). The effect of insulin in inducing the death of wild-type cells was not seen in the presence of genistein or vanadate. The effect of IGF-I on the death of wild-type cells was observed in the presence of genistein or vanadate. The effect of genistein on cell death was significantly prevented in transfectants. Such effect was not seen with vanadate. This study demonstrates that insulin or IGF-I stimulates cell death and apoptosis in the hepatoma cells, and that overexpression of regucalcin has a suppressive effect on cell death induced by insulin or IGF-I that is mediated through different signaling pathway.
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PMID:Overexpression of regucalcin suppresses cell death and apoptosis in cloned rat hepatoma H4-II-E cells induced by insulin or insulin-like growth factor-I. 1588 Jun 94

The present study was performed to examine how the stimulation of gamma-aminobutyric acid (GABA) receptor affects amyloid beta protein (25-35) (Abeta (25-35)), a synthetic 25-35 amyloid peptide, -induced neurotoxicity using cultured rat cortical neurons. Abeta (25-35) produced a concentration-dependent reduction of cell viability, which was significantly reduced by (5R,10S)-(+)-5-methyl-10,11-dihydro-5H-dibenzo[a,d] cyclohepten-5,10-imine (MK-801), an N-methyl-d-aspartate (NMDA) receptor antagonist, verapamil, an L-type Ca(2+) channel blocker, and N(G)-nitro-l-arginine methyl ester (l-NAME), a nitric oxide synthase inhibitor. Pretreatment with muscimol, a GABAA receptor agonist, over a concentration range of 0.1-10microM 24h before the treatment with 10microM Abeta (25-35) showed concentration-dependent inhibition on the Abeta (25-35)-induced neuronal apoptotic death. However, baclofen (1 and 10microM), a GABAB receptor agonist, failed to inhibit the Abeta (25-35)-induced neuronal death. In addition, pretreatment with muscimol (1microM) for 24h inhibited the Abeta (25-35) (10microM)-induced elevation of cytosolic Ca(2+) concentration ([Ca(2+)]c) and glutamate release, generation of reactive oxygen species (ROS), and caspase-3 activity in cultured neurons. These neuroprotective effects of muscimol (1microM) were completely blocked by the simultaneous treatment with 10microM bicuculline, a GABAA receptor antagonist, indicating that the protective effects of muscimol were due to GABAA receptor stimulation. When, however, treated just 15min before the treatment with Abeta (25-35), muscimol (1microM) did not show any protective effect against Abeta (25-35) (10microM)-induced neurotoxicity in cultured neurons. These results suggest that the chronic activation of GABAA receptor may ameliorate Abeta-induced neurotoxicity by interfering with the increase of [Ca(2+)]c, and then by inhibiting glutamate release, generation of ROS and caspase-3 activity.
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PMID:Chronic stimulation of GABAA receptor with muscimol reduces amyloid beta protein (25-35)-induced neurotoxicity in cultured rat cortical cells. 1589 66

Amyotrophic lateral sclerosis (ALS) is a progressive neurodegenerative disorder, characterized by the degeneration of upper and lower motor neurons (MNs). Central nervous system features include a loss of Betz cells and other pyramidal cells from sensorimotor cortex. The intrinsic mechanism underlying this selective motor neuron loss has not been identified. A recent in vitro study has provided evidence of a novel programmed cell death (PCD) pathway that is unique to spinal cord MNs and is exacerbated by superoxide dismutase (SOD) mutations. This PCD pathway is triggered through the Fas receptor and involves the apoptosis signal-regulating kinase 1 (ASK1), the p38 MAP kinase, and the neuronal form of nitric oxide synthase (nNOS). Previously, we found significant increases in the numbers of ventral horn MNs immunopositive for these enzymes in the spinal cords of mutant SOD transgenic (G93A) mice as early as 60 days of age, suggesting that this pathway may be active in vivo. Since the upper MNs of ALS patients and G93A mice are also known to degenerate, the purpose of the present study was to investigate the possible activation of this PCD pathway in the MNs of the sensorimotor cortex of G93A transgenic mice. Compared to non-transgenic littermates, the G93A mice showed significant increases in the numbers of MNs immunopositive for the active (phosphorylated) forms of ASK1, p38, MKK3/6 (the known activator of p38), and also active caspase-3, as early as 60 days of age. Another stress-activated protein kinase, c-Jun N-terminal kinase (JNK), commonly activated in other neurodegenerative disorders such as Alzheimer's disease, showed no increases in G93A mice at any age. These results suggest that, not only has a PCD pathway been activated in the cortical MNs, but one that may be unique to ALS. Moreover, these findings suggest that earlier diagnosis and therapeutic intervention may be possible for successful treatment of ALS. Consequently, these enzymes may provide the biochemical markers to enable earlier diagnosis of ALS and molecular targets for the development of new therapeutic compounds.
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PMID:Activation of the stress-activated MAP kinase, p38, but not JNK in cortical motor neurons during early presymptomatic stages of amyotrophic lateral sclerosis in transgenic mice. 1591 Jul 77

Although prostaglandin (PG) F2alpha is known to be a principal luteolytic factor, its action on the bovine corpus luteum (CL) is mediated by other intra-ovarian factors. Tumor necrosis factor-alpha (TNFalpha) and its specific receptors are present in the bovine CL with the highest expressions at luteolysis. TNFalpha in combination with interferon-gamma reduced progesterone (P4) secretion, increased PGF2alpha and leukotriene C4 (LTC4) production, and induced apoptosis of the luteal cells in vitro. Low concentrations of TNFalpha caused luteolysis, which resulted in a decreased level of P4, and increased levels of PGF2alpha, LTC4 and nitrite/nitrate (stable metabolites of nitric oxide-NO) in the blood. Inhibition of local NO production counteracts spontaneous and PGF2alpha-induced luteolysis. Therefore, NO is a likely candidate for the molecule that mediates PGF2alpha and TNFalpha actions during luteolysis. Both PGF2alpha and TNFalpha increase NO concentrations in blood, and stimulate NO synthase expression on protein level in the bovine CL cells. NO stimulates PGF2alpha and LTC4 secretion, inhibits P4 production and reduces the number of viable luteal cells. TNFalpha and NO induce apoptotic death of the CL by modulating expression of bcl-2 family genes and by stimulating expression and activity of caspase-3. The above findings indicate that TNFalpha and NO play crucial roles in functional and structural luteolysis in cattle.
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PMID:Role of tumor necrosis factor-alpha and nitric oxide in luteolysis in cattle. 1595 Apr 30

The purpose of this study was to determine whether advanced glycation end products (AGEs) are neurotoxic for cultured retinal neurons consisting mainly of amacrine cells, and to determine whether endogenous nitric oxide (NO) is involved in the toxicity. Cultured retinal neurons obtained from fetal Wistar rats (gestational age 19 days) were maintained in culture for 10 days, and then exposed to different concentrations of AGEs (0.02, 0.1, and 0.5 mg ml(-1)) in cultured media for different lengths of time. Both trypan blue exclusion and TUNEL assay were used to determine whether AGEs were neurotoxic, and NG-nitro-L-arginine methyl ester (L-NAME, 500 microM), a nitric oxide synthase (NOS) inhibitor, was used to determine whether NO was involved. Immunohistochemical analyses were performed to determine whether specific receptors of AGEs (RAGE) are present on cultured retinal neurons; caspase-3 was activated, and 3-nitrotyrosine was expressed on neurons treated with AGEs. Nitrite levels were measured in the supernatants of the media where neurons were incubated with AGEs. AGEs induced cell death in a time- and dose-dependent manner. TUNEL-positive cells and immunoreactivity to cleaved caspase-3 were enhanced on neurons following exposure to AGEs. L-NAME significantly suppressed the AGEs-induced neurotoxicity as assessed by both trypan blue exclusion and TUNEL assays. Activation of NOS was suggested by enhanced immunoreactivity to 3-nitrotyrosine on neurons and increased nitrite levels in the media incubated with AGEs. These results indicate that AGEs are neurotoxic to retinal neurons in culture through the activation of NOS. Apoptotic pathways may be in part involved in the death of the neurons.
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PMID:Advanced glycation end products induce death of retinal neurons via activation of nitric oxide synthase. 1597 78

Acute renal failure (ARF) is a frequent and serious complication of endotoxemia caused by lipopolysaccharide (LPS) and contributes significantly to mortality. The present studies were undertaken to examine the roles of nitric oxide (NO) and caspase activation on renal peritubular blood flow and apoptosis in a murine model of LPS-induced ARF. Male C57BL/6 mice treated with LPS (Escherichia coli) at a dose of 10 mg/kg developed ARF at 18 h. Renal failure was associated with a significant decrease in peritubular capillary perfusion. Vessels with no flow increased from 7 +/- 3% in the saline group to 30 +/- 4% in the LPS group (P < 0.01). Both the inducible NO synthase inhibitor L-N(6)-1-iminoethyl-lysine (L-NIL) and the nonselective caspase inhibitor benzyloxycarbonyl-Val-Ala-Asp fluoromethylketone (Z-VAD) prevented renal failure and reversed perfusion deficits. Renal failure was also associated with an increase in renal caspase-3 activity and an increase in renal apoptosis. Both L-NIL and Z-VAD prevented these changes. LPS caused an increase in NO production that was blocked by L-NIL but not by Z-VAD. Taken together, these data suggest NO-mediated activation of renal caspases and the resulting disruption in peritubular blood flow are an important mechanism of LPS-induced ARF.
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PMID:Disruption of renal peritubular blood flow in lipopolysaccharide-induced renal failure: role of nitric oxide and caspases. 1599 45

After recent clinical trials, statins have gained increasing significance in secondary stroke prevention. From experimental studies, it is well established that statins have beneficial action when delivered prophylactically prior to a stroke. Conversely, much less is known about the effects of statins on injury development when delivered after ischemia. We here examined the effects of a post-ischemic delivery of rosuvastatin (0.5, 5 or 20 mg/kg, administered i.p. immediately after reperfusion onset), a potent 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitor, on brain injury and cell signaling after focal cerebral ischemia, induced by 90 min of intraluminal middle cerebral artery occlusion in mice. In animals receiving normal saline, 0.5 or 5 mg/kg rosuvastatin, middle cerebral artery occlusions resulted in reproducible brain infarcts at 24 h after reperfusion onset, which did not differ in size. However, rosuvastatin, administered at higher doses (20 mg/kg), reduced infarct volume at 24 and 48 h after ischemia (by 34+/-16% and 18+/-3%, respectively, P<0.05). Western blots revealed that rosuvastatin decreased phosphorylated extracellular-regulated kinase-1/-2 and reduced activated caspase-3 levels in ischemic brain areas, while endothelial NO synthase expression, p38 and Jun kinase phosphorylation were not influenced by the 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitor. Rosuvastatin also significantly diminished expression levels of inducible NO synthase in the ischemic brain. Our results indicate that rosuvastatin may have utility not only as stroke prophylaxis but also as acute therapy inhibiting executive cell death pathways.
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PMID:Post-ischemic delivery of the 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitor rosuvastatin protects against focal cerebral ischemia in mice via inhibition of extracellular-regulated kinase-1/-2. 1600 98

Oxidative/nitrosative stress is involved in NMDA receptor-mediated excitotoxic brain damage produced by the glutamate analog quinolinic acid. The purpose of this work was to study a possible role of peroxynitrite, a reactive oxygen/nitrogen species, in the course of excitotoxic events evoked by quinolinic acid in the brain. The effects of Fe(TPPS) (5,10,15,20-tetrakis (4-sulfonatophenyl)porphyrinate iron (III)), an iron porphyrinate and putative peroxynitrite decomposition catalyst, were tested on lipid peroxidation and mitochondrial function in brain synaptic vesicles exposed to quinolinic acid, as well as on peroxynitrite formation, nitric oxide synthase and superoxide dismutase activities, lipid peroxidation, caspase-3-like activation, DNA fragmentation, and GABA levels in striatal tissue from rats lesioned by quinolinic acid. Circling behavior was also evaluated. Increasing concentrations of Fe(TPPS) reduced lipid peroxidation and mitochondrial dysfunction induced by quinolinic acid (100 microM) in synaptic vesicles in a concentration-dependent manner (10-800 microM). In addition, Fe(TPPS) (10 mg/kg, i.p.) administered 2 h before the striatal lesions, prevented the formation of peroxynitrite, the increased nitric oxide synthase activity, the decreased superoxide dismutase activity and the increased lipid peroxidation induced by quinolinic acid (240 nmol/microl) 120 min after the toxin infusion. Enhanced caspase-3-like activity and DNA fragmentation were also reduced by the porphyrinate 24 h after the injection of the excitotoxin. Circling behavior from quinolinic acid-treated rats was abolished by Fe(TPPS) six days after quinolinic acid injection, while the striatal levels of GABA, measured one day later, were partially recovered. The protective effects that Fe(TPPS) exerted on quinolinic acid-induced lipid peroxidation and mitochondrial dysfunction in synaptic vesicles suggest a primary action of the porphyrinate as an antioxidant molecule. In vivo findings suggest that the early production of peroxynitrite, altogether with the enhanced risk of superoxide anion (O2*-) and nitric oxide formation (its precursors) induced by quinolinic acid in the striatum, are attenuated by Fe(TPPS) through a recovery in the basal activities of nitric oxide synthase and superoxide dismutase. The porphyrinate-mediated reduction in DNA fragmentation simultaneous to the decrease in caspase-3-like activation from quinolinic acid-lesioned rats suggests a prevention in the risk of peroxynitrite-mediated apoptotic events during the course of excitotoxic damage in the striatum. In summary, the protective effects that Fe(TPPS) exhibited both under in vitro and in vivo conditions support an active role of peroxynitrite and its precursors in the pattern of brain damage elicited by excitotoxic events in the experimental model of Huntington's disease. The neuroprotective mechanisms of Fe(TPPS) are discussed.
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PMID:Excitotoxic brain damage involves early peroxynitrite formation in a model of Huntington's disease in rats: protective role of iron porphyrinate 5,10,15,20-tetrakis (4-sulfonatophenyl)porphyrinate iron (III). 1611 17

In osteoarthritis (OA) a time or age dependent process leads to aberrant cartilage structure which is characterized by reduced number of chondrocytes, loss of existing cartilage extracellular matrix, the production of matrix with abnormal composition and pathologic matrix calcification. Because chondrocyte matrix synthesis and mineralization are modulated by the balance between ATP generation and consumption, the mechanism by which chondrocytes generate energy have been a topic of interest. The analysis of mitochondrial respiratory chain (MRC) activity in OA chondrocytes shows a significant decrease in complexes II and III compared to normal chondrocytes. On the other hand, mitochondrial mass is increased in OA, as demonstrated by a significant rise in CS activity. Furthermore, OA cells show a reduction in the mitochondrial membrane potential (deltapsim) as demonstrated by using the fluorescent probe JC-1. OA cartilage contains high number of apoptotic chondrocytes, and mitochondria play a key role in apoptosis. Interestingly, OA cartilages show markedly elevated Bcl-2 and caspasa-3 expression. This expression is also correlated with chondrocyte apoptosis and OA lesions. The pathogenesis of OA includes elaboration of increased amounts of NO as a consequence of up-regulation of chondrocyte-inducible NO synthase induced by IL-1, TNF-alpha and other factors. NO reduces chondrocyte survival and induces cell death with morphologic changes characteristic of chondrocyte apoptosis. NO reduces the activity of complex IV and decreases the deltapsim as measured as the ratio of red/green fluorescence. Furthermore, NO induces the mRNA expression of caspase-3 and -7, and it reduces the expression of mRNA bcl-2 and the bcl-2 protein synthesis. Some studies suggest that the chondrocyte mitochondria are specialized for calcium transport and are important in the calcification of the extracellular matrix. Mineral formation has been demonstrated in matrix vesicles (MV) and within mitochondria. Direct suppression of mitochondrial respiration promoted MV-mediated mineralization in chondrocytes. Regulation of MRC may be one of the signaling pathways by which NO modulates articular cartilage matrix biosynthesis and pathologic mineralization. After age 40, the incidence of OA in humans increases progressively with increasing age. Studies show a trend to statistic significance between the age and the reduction of complex I activity of human normal chondrocytes. However, the study of relation between age and deltapsim in normal chondrocytes do not demonstrate any significant correlation. It has been reported that as the number of population doublings increased, mitochondrial DNA was degraded and the number of mitochondria per chondrocyte decline. One approach for determining the role of mitochondria in OA is to determine the effects of the MRC inhibition and to compare them with the findings in OA. Inhibition of MRC with antimycin prevents the normal ability of TGFbeta to increase excretion of Pi, thereby worsening deposition of pathologic HA crystals. In chondrocytes, the inhibition of complex IV with NaN3 modified both the deltapsim and the survival of cells inducing apoptosis. Inhibition of complex I with rotenone increases the expression and synthesis of Bcl-2 and Cox-2, both effects are similar effects to produced by IL-1 in human chondrocytes.
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PMID:Mitochondrial dysfunction in osteoarthritis. 1612 Apr 27

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