Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.22.36 (caspase-1)
 6,285 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Caspase-3 knockout mice exhibit thickening of the internal granule cell layer of the cerebellum. Concurrently, it has been shown that intracerebral injection of pituitary adenylate cyclase-activating polypeptide (PACAP) induces a transient increase of the thickness of the cerebellar cortex. In the present study, we have investigated the possible effect of PACAP on caspase activity in cultured cerebellar granule cells from 8-day-old rat. Incubation of granule neurons with PACAP for 24 h promoted cell survival and prevented DNA fragmentation. Exposure of cerebellar granule cells to the specific caspase-3 inhibitor N-benzyloxycarbonyl-Asp-Glu-Val-Asp fluoromethylketone (Z-DEVD-FMK) for 24 h markedly enhanced cell survival and inhibited apoptotic cell death. Time-course studies revealed that PACAP causes a prolonged inhibition of caspase-3 activity without affecting caspase-1. Administration of graded concentrations of PACAP for 3 h induced a dose-dependent inhibition of caspase-3 activity. Incubation of granule cells with both dibutyryl-cAMP (dbcAMP) and phorbol 12-myristate 13-acetate (PMA) mimicked the inhibitory effect of PACAP on caspase-3. Cotreatment of cultured neurons with the protein kinase A inhibitor H89 and the protein kinase C inhibitor chelerythrine abrogated the effect of PACAP on caspase-3 activity. In contrast, the ERK kinase inhibitor U0126 did not affect the action of PACAP on caspase-3 activity. These data demonstrate that PACAP prevents cerebellar granule neurons from apoptotic cell death through a protein kinase A- and protein kinase C-dependent inhibition of caspase-3 activity.
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PMID:The neuroprotective effect of pituitary adenylate cyclase-activating polypeptide on cerebellar granule cells is mediated through inhibition of the CED3-related cysteine protease caspase-3/CPP32. 1108 78

Sodium nitroprusside (SNP) induces apoptosis in H9C2 cardiac muscle cells. Treatment with an exogenous NO donor SNP (2 mM) to H9C2 cells resulted in apoptotic morphological changes; a bright blue-fluorescent condensed nuclei and chromatin fragmentation by fluorescence microscope of Hoechst 33258-staining. The activity of caspase-3 like protease was increased during SNP-induced cell death. However, the activity of caspase-1 like protease was not affected by SNP. Pretreatment with Z-VAD-FMK (a pan-caspase inhibitor) or Ac-DEVD-CHO (a specific caspase-3 inhibitor) abrogated the SNP-induced cell death. SNP markedly activated three MAP kinases (JNK/SAPK, ERK and p38 MAP kinase) in the cardiac muscle cells. In this study, selective inhibition of the ERK or p38 MAPK pathway (by PD98059 or SB203580, respectively) had no effect on the extent of SNP-induced apoptosis in cardiac muscle cells. In contrast, inhibition of the JNK pathway by transfection of a dominant negative mutant of JNK markedly reduced the extent of SNP-induced cell death. Taken together, we suggest that JNK/SAPK will be related to SNP-induced apoptosis of H9C2 cardiac muscle cells.
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PMID:Sodium nitroprusside induces apoptosis of H9C2 cardiac muscle cells in a c-Jun N-terminal kinase-dependent manner. 1137 51

Chemical-induced oxidative stress to a cell can signal many cellular responses which include proliferation, differentiation, hemeostasis, apoptosis or necrosis. To better understand the underlying molecular mechanisms after exposure to chemicals, we investigated the signal transduction pathways, in particular the mitogen-activated protein kinase (MAPK) pathway and the ICE/Ced-3 protease (caspase) pathway, activated by different agents. Butylated hydroxyanisol (BHA) and its metabolite, t-butyl-hydroquinone (tBHQ), both are well known phenolic antioxidants used in food preservatives, strongly activated c-Jun N-terminal kinase 1 (JNK1) and/or extracellular signal-regulated protein kinase 2 (ERK2) in a dose- and time-dependent fashion. Pretreatment with free radical scavengers N-acetyl-L-cysteine (NAC), glutathione (GSH), or vitamin E, inhibited ERK2 activation and, to a much lesser extent, JNK 1 activation by BHA and tBHQ, implicating the role of oxidative stress. Under conditions where JNK1 and ERK2 were activated, BHA also activated transcription factors nuclear factor kappa B (NF-kappaB), activated-protein-1 (AP-1), and anti-oxidant response element (ARE), leading to induction of genes such as c-jun, and c-fos. At relatively high concentrations, BHA and tBHQ stimulated proteolytic activity of ICE/Ced3 cysteine proteases, and caused apoptosis, which was blocked by pretreatment with NAC. Further increase in concentrations lead to rapid cell death predominantly occurred via necrosis. Some naturally occurring phytochemicals, such as phenylethyl isothiocyanate (PEITC), green tea polyphenols (GTP), and sulfarophane, which have been shown to be potent inducers of Phase II enzymes, also differentially regulated the activities of JNK, ERK, or CPP-32, in a time- and dose-dependent manner. Our data, together with the work of others, enable us to propose a model in which low concentrations of these chemicals (e.g., BHA, PEITC) activate MAPKs leading to induction of gene expression (e.g., c-jun, c-fos, GSI) which may protect the cells against toxic insults and enhance cell survival. At relatively high concentrations, these agents activated both MAPKS, and the ICE/Ced-3 caspase pathway, leading to apoptosis. The exact mechanisms by which MAPK and caspases are activated by these agents are currently unknown, but may involve oxidative modification of glutathione (GSH) and/or protein thiols, and/or generation of secondary messengers, ceramide and calcium, which further activate downstream events. Taken together, our results suggest that chemicals including phenolic antioxidants activate MAPK pathways which may lead to the induction of genes producing protection and survival mechanisms, as well as the ICE/Ced-3 protease pathway, leading to apoptosis. The balancing amongst these pathways may dictate the fate of the cells upon exposure to chemicals.
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PMID:Differential activation of MAPK and ICE/Ced-3 protease in chemical-induced apoptosis. The role of oxidative stress in the regulation of mitogen-activated protein kinases (MAPKs) leading to gene expression and survival or activation of caspases leading to apoptosis. 1267 Dec 99

Experimentally and clinically, stroke is followed by both acute and prolonged inflammatory responses characterized by the production of inflammatory cytokines and leukocyte infiltration into the brain. A debate on whether inflammation after stroke is neurotoxic or participates in brain repair remains unresolved. However, the need to pharmacologically control inflammatory amplification has been commonly acknowledged. The principal challenge of devising successful anti-inflammatory strategies for stroke is to understand molecular and temporal interplay of inflammatory and cell-death-inducing processes triggered by cerebral ischemia in both parenchymal and vascular brain cells. This article will review a number of experimental and clinically tested approaches to reduce brain inflammation and damage after stroke (e.g., anti-neutrophil, anti-ICAM-1, anti-cytokine strategies) and will suggest potential pathways where novel therapeutic targets may emerge, including transcriptional regulators of inflammatory gene expression (e.g., NF-kappaB, proteasome) and signaling pathways (e.g., ICE-cascade, MAPK/MKK/ERK cascade) linked to both inflammation and neuronal cell death. Finally, we will discuss applications of functional genomics technologies in the discovery of stroke diagnostics and therapies.
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PMID:Current and future therapeutic strategies to target inflammation in stroke. 1456 Nov 97

Rabies virus (RABV) is able to induce apoptotic death of target cells. The molecular pathway of RABV-induced cell death is partially known. In the present study, cDNA array analysis was used as a tool to screen for pro-apoptotic genes that may be involved in RABV induction. RNA was extracted from the infected CNS and from mock-infected controls. When the mean gene expression was compared between the infected group and controls, 21 potential apoptotic genes were identified that exhibited more than 2.5-fold difference in their expression levels. These 21 genes can be grouped into two groups, those genes that participate in the commitment phase and those that play a role as executioners. Examples of genes in commitment phase were death receptors (Fas-L receptor, TNF-receptor), lysosomal proteases, calpain, caspase-1, signaling molecules (ERK, p38MAPK) and bcl-2 family members. Cytochrome c and caspase-3 were representatives of executioners. Based on types of genes activated during the commitment phase, two independent apoptotic mechanisms may be activated in response to the RV infection. The first is immune-mediated death which may operate through the receptor-ligand pathway activated by caspase-1 and the pro-inflammatory cytokine, IL-1beta. The other mechanism is a protease-mediated process which involves lysosomal proteases and calcium-dependent neutral proteases. These two stimulating pathways were followed by Bad, Bak, Bid activation and subsequently the upregulation of cytochrome c and caspase-3. In addition, mobilization of K+ ion and other accessory apoptotic genes such as annexins and clusterin were also upregulated.
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PMID:Screening of pro-apoptotic genes upregulated in an experimental street rabies virus-infected neonatal mouse brain. 1590 4

Helicobacter pylori (Hp) can induce apoptosis of gastric cancer cells. The mechanism of the process still needs further elucidating. This study was aimed to analyse the mechanism through which Hp induce apoptosis in human gastric cancer cell line BGC-823. The extract from VacA(+) and CagA(+) Helicobacter pylori strain NCTC11637 was applied to induce apoptosis. The expression, breakdown, and phosphorylation of proteins were probed by Western blotting with specific antibodies. Apoptosis of the cells was detected by flow cytometry. The results showed that incubating the cells with Hp extract caused the breakdown of both caspase-3 and -1. The breakdown was dose-dependent and correlated with the occurrence of the Hp extract-induced apoptosis. Among the substrates of caspase-3, DNA fragment factor (DFF) was degraded during incubation with Hp extract and a small fragment was released. However, poly(ADP-ribose) polymerase (PARP) did not break down during the incubation. Tyrosine kinase inhibitor Genistein prevented both the break down of caspase-3 and the apoptosis induced by Hp extract. MAPK/ERK inhibitor PD98059 did not prevent the apoptosis induced by Hp extract. The expression and activity of JNK, and the expression of Bcl-2 and Fas proteins did not change during the incubation with Hp extract. The results suggested that Hp extract initiated apoptosis in BGC-823 cells through activating tyrosine kinase, caspase-1, -3, and DFF.
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PMID:Analysis on the mechanism of Helicobacter pylori-induced apoptosis in gastric cancer cell line BGC-823. 1614 14

We and others have demonstrated that Fas-mediated apoptosis is a potential therapeutic target for cholangiocarcinoma. Previously, we reported that CaM (calmodulin) antagonists induced apoptosis in cholangiocarcinoma cells through Fas-related mechanisms. Further, we identified a direct interaction between CaM and Fas with recruitment of CaM into the Fas-mediated DISC (death-inducing signalling complex), suggesting a novel role for CaM in Fas signalling. Therefore we characterized the interaction of CaM with proteins recruited into the Fas-mediated DISC, including FADD (Fas-associated death domain)-containing protein, caspase 8 and c-FLIP {cellular FLICE [FADD (Fas-associated death domain)-like interleukin 1beta-converting enzyme]-like inhibitory protein}. A Ca(2+)-dependent direct interaction between CaM and FLIP(L), but not FADD or caspase 8, was demonstrated. Furthermore, a 37.3+/-5.7% increase (n=6, P=0.001) in CaM-FLIP binding was observed at 30 min after Fas stimulation, which returned to the baseline after 60 min and correlated with a Fas-induced increase in intracellular Ca(2+) that reached a peak at 30 min and decreased gradually over 60 min in cholangiocarcinoma cells. A CaM antagonist, TFP (trifluoperazine), inhibited the Fas-induced increase in CaM-FLIP binding concurrent with inhibition of ERK (extracellular-signal-regulated kinase) phosphorylation, a downstream signal of FLIP. Direct binding between CaM and FLIP(L) was demonstrated using recombinant proteins, and a CaM-binding region was identified in amino acids 197-213 of FLIP(L). Compared with overexpression of wild-type FLIP(L) that resulted in decreased spontaneous as well as Fas-induced apoptosis, mutant FLIP(L) with deletion of the CaM-binding region resulted in increased spontaneous and Fas-induced apoptosis in cholangiocarcinoma cells. Understanding the biology of CaM-FLIP binding may provide new therapeutic targets for cholangiocarcinoma and possibly other cancers.
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PMID:Calmodulin binding to cellular FLICE-like inhibitory protein modulates Fas-induced signalling. 1825 44

Increased activity of calpains is implicated in synaptic dysfunction and neurodegeneration in Alzheimer's disease (AD). The molecular mechanisms responsible for increased calpain activity in AD are not known. Here, we demonstrate that disease progression is propelled by a marked depletion of the endogenous calpain inhibitor, calpastatin (CAST), from AD neurons, which is mediated by caspase-1, caspase-3, and calpains. Initial CAST depletion focally along dendrites coincides topographically with calpain II and ERK 1/2 activation, tau cleavage by caspase-3, and tau and neurofilament hyperphosphorylation. These same changes, together with cytoskeletal proteolysis and neuronal cell death, accompany CAST depletion after intrahippocampal kainic acid administration to mice, and are substantially reduced in mice overexpressing human CAST. Moreover, CAST reduction by shRNA in neuronal cells causes calpain-mediated death at levels of calcium-induced injury that are sublethal to cells normally expressing CAST. Our results strongly support a novel hypothesis that CAST depletion by multiple abnormally activated proteases accelerates calpain dysregulation in AD leading to cytoskeleton disruption and neurodegeneration. CAST mimetics may, therefore, be neuroprotective in AD.
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PMID:Marked calpastatin (CAST) depletion in Alzheimer's disease accelerates cytoskeleton disruption and neurodegeneration: neuroprotection by CAST overexpression. 1902 18

Apoptosis-associated speck-like protein containing a caspase recruitment domain (ASC) is an adaptor molecule that mediates inflammatory and apoptotic signals. Although the role of ASC in caspase-1-mediated IL-1beta and IL-18 maturation is well known, ASC also induces NF-kappaB activation and cytokine gene expression in human cells. In this study, we investigated the molecular mechanism and repertoire of ASC-induced gene expression in human cells. We found that the specific activation of ASC induced AP-1 activity, which was required for optimal IL8 promoter activity. ASC activation also induced STAT3-, but not STAT1-, IFN-stimulated gene factor 3- or NF-AT-dependent reporter gene expression. The ASC-mediated AP-1 activation was NF-kappaB-independent and primarily cell-autonomous response, whereas the STAT3 activation required NF-kappaB activation and was mediated by a factor that can act in a paracrine manner. ASC-mediated AP-1 activation was inhibited by chemical or protein inhibitors for caspase-8, caspase-8-targeting small-interfering RNA, and p38 and JNK inhibitors, but not by a caspase-1 inhibitor, caspase-9 or Fas-associated death domain protein (FADD) dominant-negative mutants, FADD- or RICK-targeting small-interfering RNAs, or a MEK inhibitor, indicating that the ASC-induced AP-1 activation is mediated by caspase-8, p38, and JNK, but does not require caspase-1, caspase-9, FADD, RICK, or ERK. DNA microarray analyses identified 75 genes that were induced by ASC activation. A large proportion of them was related to transcription (23%), inflammation (21%), or cell death (16%), indicating that ASC is a potent inducer of inflammatory and cell death-related genes. This is the first report of ASC-mediated AP-1 activation and the repertoire of genes induced downstream of ASC activation.
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PMID:Mechanism and repertoire of ASC-mediated gene expression. 1949 89

Proinflammatory cytokines of the IL-1 family play an important role for the anti-mycobacterial host defense mechanisms. In the present study we have deciphered the pathways leading from recognition of Mycobacterium tuberculosis to the production and release of IL-1beta, the most important member of the IL-1 family. By stimulating cells defective in various pattern recognition receptors, we could demonstrate that IL-1beta production is induced by M. tuberculosis through pathways involving TLR2/TLR6 and NOD2 receptors. In contrast, TLR4, TLR9 and TLR1 receptors are not involved in IL-1beta induction. Recognition of M. tuberculosis by TLR and NOD2 leads to transcription of proIL-1beta through mechanisms involving ERK, p38 and Rip2, but not JNK. Interestingly, although caspase-1 is necessary for the processing of proIL-1beta, activation of caspase-1 is not dependent on the stimulation of cells by M. tuberculosis. Monocytes expressed constitutively active caspase-1. The secretion of IL-1beta is dependent on the activation of P2X7-induced pathways by endogenously released ATP. In conclusion, we have dissected the molecular mechanisms responsible for IL-1beta production by M. tuberculosis, and that may contribute to a deeper knowledge of the mechanisms of cell activation by M. tuberculosis.
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PMID:Transcriptional and inflammasome-mediated pathways for the induction of IL-1beta production by Mycobacterium tuberculosis. 1954 85


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