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: EC:3.4.22.56 (caspase-3)
35,750 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Proteases that are members of the caspase (or interleukin-1beta converting enzyme (ICE)) protease family have been shown to be important mediators of apoptosis induced by Fas activation, neurotrophic factor withdrawal, and detachment from extracellular matrix. In this report we have investigated the potential importance of caspase proteases in apoptosis induced by multiple chemotherapeutic agents. Human T leukemic cells engineered to overexpress the cowpox virus CrmA protein, a direct and specific inhibitor of caspase proteases, were studied for their resistance to 1-beta-D-arabinofurasosyl-cytosine (Ara-C), etoposide (VP-16), doxorubicin (DOX), and cis-dichlorodiammine platinum (CP). Overexpression of CrmA dramatically inhibited drug-induced activation of caspases, as measured by processing of the inactive precursor form of caspase-3 and cleavage of caspase substrate proteins poly(ADP-ribose) polymerase (PARP) and lamin B. CrmA also significantly inhibited the kinetics of cell death induced by each of the four drugs. Moreover, when examined several days or weeks after initial exposure to drug, cultures of CrmA-expressing cells were found to have recovered and repopulated, whereas vector-transfected control cells did not. These studies demonstrate that caspase proteases play an important role in conferring sensitivity to multiple chemotherapy drugs, and that constitutive downmodulation of caspase activities can enhance chemoresistance.
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PMID:Inhibition of caspase proteases by CrmA enhances the resistance of human leukemic cells to multiple chemotherapeutic agents. 932 87

Thapsigargin, an endoplasmic reticular Ca2+-ATPase inhibitor, induced apoptotic cell death (chromatin condensation and DNA fragmentation) accompanied by the activation of CPP32-like protease, a member of the interleukin-1beta converting enzyme protease (ICE) family, but not the activation of ICE-like protease. Nerve growth factor (NGF) completely inhibited the cell death and CPP32-like activation induced by thapsigargin while Ac-Asp-Glu-Val-Asp-CHO, an inhibitor of CPP32-like protease, reduced the cell death. PD98059, a specific inhibitor of Map kinase kinase, did not reduce the protective effect of NGF on thapsigargin-induced cell death. These results suggest that calcium ion-induced apoptotic cell death was mediated by CPP32-like, but not ICE-like, protease and was regulated by a neurotrophic factor possibly, through the Map kinase cascade independent pathway.
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PMID:Apoptotic cell death and CPP32-like activation induced by thapsigargin and their prevention by nerve growth factor in PC12 cells. 945 86

Midkine (MK) is a new member of the heparin-binding neurotrophic factor family. MK plays important roles in development and carcinogenesis and has several important biological effects, including promotion of neurite extension and neuronal survival. However, the mechanism by which MK exerts its neurotrophic actions on neurons has not been elucidated to date. We have established an apoptosis induction system by serum deprivation in primary neuronal cultures isolated from mouse cerebral cortices. Neuronal apoptosis induced by serum deprivation was accompanied by the activation of caspase-3. MK, when added into the culture medium, inhibited the induction of apoptosis and activation of caspase-3 in a dose-dependent manner. Extracellular signal-regulated kinase (ERK) and Akt were not activated by serum deprivation, whereas ERK and Akt were rapidly activated by addition of MK. In addition, the trophic actions of MK of suppressing apoptosis and suppressing the activation of caspase-3 were abolished by concomitant treatment with PD98059, a specific inhibitor of mitogen-activated protein kinase kinase, and with wort-mannin or LY294002, specific inhibitors of phosphatidyl-inositol 3-kinase (PI 3-kinase). These PI 3-kinase inhibitors also inhibited the activation of ERK in response to MK, demonstrating a link between ERK and the caspase-3 pathway that is modulated by the PI 3-kinase activation. These results indicate that the ERK cascade plays a central role in MK-mediated neuronal survival via inhibition of caspase-3 activation.
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PMID:Midkine inhibits caspase-dependent apoptosis via the activation of mitogen-activated protein kinase and phosphatidylinositol 3-kinase in cultured neurons. 1053 68

The effects of different calcium-mobilizing agents on cell death were characterized in NG108-15 neuroblastoma x glioma hybrid cells. Carbonyl cyanide p-trifluoromethoxyphenylhydrazone (FCCP) increased the cytosolic Ca(2+) concentration ([Ca(2+)](i)) and caused cell death. Thapsigargin (TG) not only increased the [Ca(2+)](i) and caused cell death but also induced neurite outgrowth via activation of phospholipase A(2) and cytochrome P450 epoxygenase. In contrast, bradykinin increased the [Ca(2+)](i), but had no effect on cell morphology or cell death. Cell death occurred by two different mechanisms, one of which was caspase-3-dependent and the other caspase-3-independent. Caspase-3 activation was Ca(2+)-dependent, whereas neurite outgrowth was Ca(2+)-independent. TG- or FCCP-induced caspase-3 activation occurred at the same time, but the cell death induced by TG was delayed. TG treatment did not enhance the generation of nitric oxide or cAMP or secretion of glial-derived neurotrophic factor or neurotrophin-3, but activated sphingosine kinase. Furthermore, inhibition of sphingosine kinase accelerated TG-induced cell death, and exogenous sphingosine 1-phosphate (S1P) protected cells from FCCP-induced cell death by about 60%. These results indicate that, in these cells, depletion of intracellular nonmitochondrial or mitochondrial Ca(2+) stores causes cell death, that TG activates phospholipase A(2) and sphingosine kinase, and that arachidonic acid induces neurite outgrowth, whereas S1P delays cell death.
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PMID:Distinct effects of different calcium-mobilizing agents on cell death in NG108-15 neuroblastoma X glioma cells. 1185 28

Gangliosides protect cerebellar granule cells from excitotoxicity; however, their mechanism of action remains to be fully characterized. GM1 ganglioside has been shown to activate Trk, the tyrosine kinase receptor implicated in the neuroprotective properties of the neurotrophins. In these studies, we used primary cultures of cerebellar granule cells to determine whether gangliosides exert neuroprotective effect via the activation of Trk receptors. We first examined the relative potency of the neurotrophins, brain derived neurotrophic factor (BDNF), neurotrophin-3 and nerve growth factor to prevent glutamate-mediated apoptosis. BDNF was the only neurotrophin that elicited a complete neuronal protection against glutamate. GM1 and its semisynthetic compound LIGA20 also prevented glutamate toxicity, however, LIGA20 was more potent than GM1. Both LIGA20 and BDNF blocked glutamate-mediated activation of caspase-3 and consequently apoptosis; however, the anticaspase-3 activity was seen only when these compounds were added to the cultures several hours before glutamate, suggesting that LIGA20 and BDNF share an identical molecular mechanism. To test this hypothesis, we compared the ability of LIGA20 and BDNF to activate TrkB. Both compounds elicited a similar time-dependent increase in Trk tyrosine phosphorylation. Moreover, the neuroprotective effect of BDNF and LIGA20 was abolished in neurons exposed to the Trk tyrosine kinase inhibitor k252a, demonstrating a relationship between neuroprotection and activation of Trk receptors. Our data suggest that by activating the Trk neurotrophin receptors, gangliosides may be used as neuroprotective agents.
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PMID:Gangliosides prevent excitotoxicity through activation of TrkB receptor. 1282 3

Guanosine has many trophic effects in the CNS, including the stimulation of neurotrophic factor synthesis and release by astrocytes, which protect neurons against excitotoxic death. Therefore, we questioned whether guanosine protected astrocytes against apoptosis induced by staurosporine. We evaluated apoptosis in cultured rat brain astrocytes, following exposure (3 h) to 100 nM staurosporine by acridine orange staining or by oligonucleosome, or caspase-3 ELISA assays. Staurosporine promoted apoptosis rapidly, reaching its maximal effect (approximately 10-fold over basal apoptotic values) in 18-24 h after its administration to astrocytes. Guanosine, added to the culture medium for 4 h, starting from 1 h prior to staurosporine, reduced the proportion of apoptotic cells in a concentration-dependent manner. The IC50 value for the inhibitory effect of guanosine is 7.5 x 10(-5) M. The protective effect of guanosine was not affected by inhibiting the nucleoside transporters by propentophylline, or by the selective antagonists of the adenosine A1 or A2 receptors (DPCPX or DMPX), or by an antagonist of the P2X and P2Y purine receptors (suramin). In contrast, pretreatment of astrocytes with pertussis toxin, which uncouples Gi-proteins from their receptors, abolished the antiapoptotic effect of guanosine. The protective effect of guanosine was also reduced by pretreatment of astrocytes with inhibitors of the phosphoinositide 3-kinase (PI3K; LY294002, 30 microM) or the MAPK pathway (PD98059, 10 microM). Addition of guanosine caused a rapid phosphorylation of Akt/PKB, and glycogen synthase kinase-3beta (GSK-3beta) and induced an upregulation of Bcl-2 mRNA and protein expression. These data demonstrate that guanosine protects astrocytes against staurosporine-induced apoptosis by activating multiple pathways, and these are mediated by a Gi-protein-coupled putative guanosine receptor.
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PMID:The antiapoptotic effect of guanosine is mediated by the activation of the PI 3-kinase/AKT/PKB pathway in cultured rat astrocytes. 1509 66

Intrahippocamal injections of kainic acid (KA) significantly increase the expression of monocyte chemoattractant protein-1 (MCP-1) and macrophage inflammatory protein-2 (MIP-2) in the ipsilateral hippocampus at 2-4 h and 21-45 days post-administration, suggesting the possible involvement of these chemokines in both neurodegenerative and regenerative processes. To examine the possible role of these chemokines on neuronal cell death, hippocampal neurons were incubated with either MCP-1 or MIP-2 in vitro and examined to assess the effects on neuronal cell viability. These treatments resulted in significant neuronal apoptosis that could be abrogated by prior treatment with the caspase-1 inhibitor, Z-VAD-FMK, the caspase-3 inhibitor, Z-DEVD-FMK, the Galphai inhibitor, pertussis toxin, or the MAO-B inhibitor, (-)deprenyl. Furthermore, this chemokine apoptotic effect could also be observed in vivo as intrahippocampal injections of MCP-1 or MIP-2 resulted in the apoptosis of hippocampal neurons, thus supporting a direct role of these chemokines in neuronal death. In contrast, immunohistological analysis of kainic acid lesions on days 21-45 revealed significant expression of MCP-1 and MIP-2 associated with reactive astrocytes and macrophages, respectively, with no apoptotic populations being observed. These results suggested that these chemokines might also mediate distinct biological effects on local microenvironmental cell populations at various stages post truama and during cellular repair. To address this possibility, astrocyte were cultured in the presence or absence of these chemokines and examined by microarray analysis for effects on astrocytes gene expression. A number of genes encoding proteins associated with inflammation, cellular signaling, differentiation, and repair were directly modulated by chemokine treatment. More specifically, the RNA and protein expression of the neurotrophic factor, basic fibroblast growth factor (bFGF), was found to be significantly increased upon culture with MCP-1 and MIP-2. Conditioned media derived from chemokine-stimulated astrocytes also facilitated bFGF-dependent neuronal cell differentiation and promoted survival of H19-7 neurons in vitro, suggesting a possible role for chemokine-activated astrocytes as a source of trophic support. Taken together, these data support possible autocrine and paracrine roles for MCP-1 and MIP-2 in both the "death and life" of hippocampal neurons following CNS injury.
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PMID:Monocyte chemoattractant protein-1 and macrophage inflammatory protein-2 are involved in both excitotoxin-induced neurodegeneration and regeneration. 1519 36

To clarify the molecular basis of the cytoprotective properties of immunophilin ligands (IPLs), the anti-apoptotic effects of IPLs were determined in human glioma U251 cells. GPI1046 and V10367, non-immunosuppressive IPLs (NI-IPLs), as well as FK506, an immunosuppressive IPL (I-IPL), had cytoprotective effects against hydrogen peroxide (H20O)-induced apoptotic cell death in U251 cells. H2O2 increased both the ratio of bax/bcl-2 and the p53 mRNA expression. However, pre-treatment with FK506 and V10367 significantly prevented any increase in this ratio or p53 mRNA expression. GPI1046 also reduced the ratio of bax/bcl-2 to the normal level. In addition, H2O2 significantly increased activities of all three caspases, caspase-3, caspase-8, and caspase-9, in comparison with non-H2O2 controls. However, FK506 prevented the increase of these caspase activities. On the other hand, it is well-known that glutathione (GSH) and neurotrophic factor (NTF) is related to the induction of apoptosis in neuronal cells. In U251 cells, FK506, GPI1046 and V10367 had GSH-activating and NTF-activating effects. Thus, the immunosuppressive effect is not essential for the cytoprotective properties of IPLs, and IPLs have multiple beneficial properties such as the anti-apoptotic effect, GSH-activating effect, and NTF-activating effect, although the anti-apoptotic effect of NI-IPLs is independent of the regulation of apoptotic activators such as caspase-3.
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PMID:Molecular basis of anti-apoptotic effect of immunophilin ligands on hydrogen peroxide-induced apoptosis in human glioma cells. 1526 Jan 30

Peroxynitrite (ONOO-) is thought to be involved in the neurodegenerative process. To screen for neuroprotective compounds against ONOO- -induced cell death, we developed 96-well based assay procedures for measuring surviving cell numbers under oxidative stress caused by 3-(4-morpholinyl) sydnonimine hydrochloride (SIN-1), a generator of ONOO-, and sodium N,N-dietyldithiocarbamate trihydrate (DDC), an inhibitor of Cu/Zn superoxide (O2-) dismutase. Using these procedures, we obtained a microbial metabolite that rescued primary neuronal cells from SIN-1-induced damage, but not from DDC-induced damage. By NMR analysis, the compound was identified as neoechinulin A, an antioxidant compound that suppresses lipid oxidation. We found that the compound rescues neuronal cells such as primary neuronal cells and differentiated PC12 cells from damage induced by extracellular ONOO-. However, non-neuronal cells, undifferentiated PC12 cells and cells of the fibroblast cell line 3Y1 were not rescued. Neoechinulin A has scavenging, neurotrophic factor-like and anti-apoptotic activities. This compound specifically scavenges ONOO-, but not O2- or nitric oxide (NO). Similar to known neuroprotective substances such as nerve growth factor and extracts of Gingko biloba leaves, neoechinulin A inhibits the SIN-1-induced activation of caspase-3-like proteases and increases NADH-dehydrogenase activity. These results suggest that neoechinulin A might be useful for protecting against neuronal cell death in neurodegenerative diseases.
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PMID:Protective properties of neoechinulin A against SIN-1-induced neuronal cell death. 1526 43

Neuronal loss has been observed in post mortem brains of patients with human immunodeficiency virus type 1 (HIV-1). Experimental evidence has implicated HIV-1-derived envelope glycoprotein 120 (gp120) in the neuronal cell death observed in these patients. However, the intrinsic mechanisms by which gp120 causes neurotoxicity are still unknown. We have recently shown that the neurotoxic effect of gp120 in vitro is reduced by brain-derived neurotrophic factor (BDNF). We therefore tested the hypothesis that low levels of BDNF render neurons more sensitive to gp120. Gp120 was injected acutely into the striatum of BDNF heterozygous mice and wild-type littermates. BDNF heterozygous mice exhibited more apoptotic neurons in the striatum than wild-type mice, suggesting that BDNF is neuroprotective also in vivo. Because several neurodegenerative disorders are characterized by lack of trophic support, we tested the hypothesis that gp120 may cause apoptosis by reducing BDNF expression. Gp120 was injected acutely in the rat striatum and BDNF levels determined by a two-site immunoassay at various times after the injection. Gp120 elicited a dramatic decrease in BDNF protein levels by 24 h. Reduced BDNF levels were still present at 4 days. Cellular localization of BDNF immunoreactivity revealed that gp120 decreases BDNF immunoreactivity mainly in neuronal processes. This effect of gp120 precedes the peak of caspase-3 activation and neuronal cell death. We propose that one of the mechanisms whereby gp120 causes neurotoxicity is a reduction of the neurotrophic factor environment crucial for cell survival.
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PMID:Human immunodeficiency virus type 1 glycoprotein gp120 reduces the levels of brain-derived neurotrophic factor in vivo: potential implication for neuronal cell death. 1557 39


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