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)

In this study, we first demonstrated that the widely used oral antifungal drug, ketoconazole (KT), can induce apoptosis in various type of human cancer cells and in a primary culture of rat liver cells. We further investigated the molecular mechanisms of KT-induced apoptosis. It was found that KT induced nuclear accumulation of p53 protein in a dose- and time-dependent manner. The level of p53 protein was elevated approximately three times as much in treated cells 24 h after KT (5 microM) exposure as in cells receiving mock treatment. We found that cells containing wild-type p53 (COLO 205 and Hep G2) were more sensitive to KT exposure. The bax protein was induced and the bcl-2 protein was inhibited by KT in cells containing wild-type p53 (Hep G2, COLO 205) but not in cells without p53 (Hep 3B). The caspase-3 was activated 24 h after KT treatment. The Poly-(ADP ribose) polymerase (PARP) and the lamin A degradation was induced by KT, which promoted nuclear membrane disassembly and eventually caused apoptosis. Our results also indicated that none of the PKC gene family was involved in KT-induced apoptosis.
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PMID:Ketoconazole-induced apoptosis through P53-dependent pathway in human colorectal and hepatocellular carcinoma cell lines. 987 98

This overviews recent understanding of the mechanisms of apoptosis on ischemia-induced neuronal cell death. Apoptosis is a prominent feature of the developing nervous system. Several lines of evidence suggest that apoptosis is also an important mechanism of cell death in adult brain in acute or chronic diseases such as stroke and Alzheimer's disease. In animal models of stroke, markers of apoptosis such as cytoplasmic and nuclear condensation and DNA fragmentation appear in neurons. A variety of physiological and pathological stimuli can activate signal-transduction pathways that result in the sequential proteolytic activation of caspase family members. The activation of caspases can be inhibited by several molecules, including peptide aldehydes (caspase-1 and or caspase-3 inhibitors) and crmA that target the active-site cysteine of caspase family members, Bcl-2, IAP (inhibitor of apoptosis protein) and NAIP (neuronal apoptosis inhibitory protein). Once activated, caspase-1 protease can activate the caspase family members and hydrolyze a discrete set of cellular targets. Poly (ADP-ribose)polymerase (PARP), which appears to facilitate apoptosis, was recognized as a substrate of activated caspase-3. These results suggest that caspase family, bcl-2 family, IAP family and substrates such PARP contribute to mechanisms of cell death in ischemic brain injury. Inhibition of the caspase family, particularly by non-peptide inhibitors that cross the blood-brain barrier and easily penetrate neurons and glia, could provide novel treatments for stroke and other forms of brain and spinal cord injury in humans.
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PMID:[Involvement of caspase on apoptosis in ischemia-induced neuronal cell death: usefulness of caspase inhibitors for stroke therapy]. 1020 84

During apoptosis, the activation of a family of cysteine proteases, or caspases, results in proteolytic cleavage of numerous substrates. Antibody probes specific for neoepitopes on protein fragments generated by caspase cleavage provide a means to monitor caspase activity at the level of the individual cell. Poly (ADP-ribose) polymerase (PARP), a nuclear enzyme involved in DNA repair, is a well-known substrate for caspase-3 cleavage during apoptosis. Its cleavage is considered to be a hallmark of apoptosis. Here, we demonstrate that an affinity-purified polyclonal antibody to the p85 fragment of PARP is specific for apoptotic cells. Western blots show that the antibody recognizes the 85-kDa (p85) fragment of PARP but not full-length PARP. We demonstrate a time course of PARP cleavage and DNA fragmentation in situ using the PARP p85 fragment antibody and terminal deoxynucleotidyl transferase-mediated dUTP nick end labeling (TUNEL) in Jurkat cells treated with anti-Fas. Furthermore, our results indicate that the p85 fragment of PARP resulting from caspase cleavage during apoptosis is rapidly localized outside the condensed chromatin but not in the cytoplasm.
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PMID:Poly (ADP-ribose) polymerase cleavage monitored in situ in apoptotic cells. 1131 71

Expression of cleaved caspase-3, cleaved caspase-7 and specific product of caspase-dependent Poly (ADP-Ribose) Polymerase (PARP) cleavage have been examined by immunohistochemistry in seven human medulloblastomas. Cleaved caspase-3 and cleaved PARP expression parallels apoptosis as revealed with classical morphological criteria and with the method of in situ end-labelling of nuclear DNA fragmentation. Cleaved PARP co-localizes cleaved caspase-3 in the majority of tumors and areas thus indicating that caspase-3 is a major effector caspase leading to apoptosis in these tumors. Yet cleaved caspase-7 was also expressed in a small number of cells in four of seven tumors, but was the predominant caspase associated with cleaved PARP in one medulloblastoma. These findings indicate that effector caspase-3 and -7 may act in association, although caspase-7 may be exceptionally dominant in selected tumors.
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PMID:Cleaved caspase-3, caspase-7 and poly (ADP-ribose) polymerase are complementarily but differentially expressed in human medulloblastomas. 1140 64

Expression of apoptosis-associated proteins p53, bcl-2, bax, and caspase-3/CPP32, activation of caspase-3, and modification of proteins via poly(ADP-ribosyl)ation was studied in pontosubicular neuron necrosis (PSN), a form of perinatal brain damage revealing the morphological hallmarks of neuronal apoptosis. Immunoreactivity for p53 was completely absent. The majority of cells stained with the bax and procaspase-3 antibodies did not show morphological signs of apoptosis. In contrast, an antibody against activated caspase-3 almost exclusively stained cells with apoptotic morphology. Poly(ADP-ribosyl)ated proteins were only rarely detected in cells with apoptotic morphology. The expression patterns of bax, procaspase-3, bcl-2, and p53 in PSN were similar to that found in age-matched control brains. However, activated caspase-3 and poly-ADP-ribosylated proteins were exclusively found in apoptotic cells. These data indicate that detection of active caspase-3 is a reliable marker for apoptosis in formalin-fixed human tissue, and that neuronal apoptosis in pontosubicular neuron necrosis is accompanied by a pronounced activation of caspase-3.
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PMID:Expression of cell death-associated proteins in neuronal apoptosis associated with pontosubicular neuron necrosis. 1141 70

Accumulation of unfolded and malfolded proteins causes endoplasmic reticulum (ER) stress, stimulating unfolded protein response (UPR) and c-Jun N-terminal kinase (JNK) activation and activating caspase-12 located on the ER. Little is known about the relationship between the ER stress and polyglutamine [poly(Q)] aggregates. Poly(Q)72 repeats [poly(Q)(72)] induced the stimulation of ER stress signals such as JNK activation, upregulation of Grp78/Bip and caspase-12 activation in C2C5 cells. We prepared antiserum against the cleavage site of mouse caspase-12 at D(318) (anti-m12D318), and showed that poly(Q)(72) with perinuclear aggregates, cytoplasmic inclusions and nuclear inclusions stimulated JNK activation and anti-m12D318 immunoreactivity, but poly(Q)(72) with dispersed aggregates and small nuclear aggregates showed a significantly less effect. Poly(Q)(72) and poly(Q)(11) dispersed in cytoplasm did not. Anti-m12D318-positive cells showed apoptotic features. Unlike anti-m8D387 immunoreactivity, the anti-m12D318 immunoreactivity was not coaggregated with poly(Q). Ac-IETD-fmk (caspase-8 inhibitor) and Ac-DEVD-CHO (caspase-3 inhibitor) did not prevent the anti-m12D318 immunoreactivity induced by poly(Q)(72) aggregates. Anti-m12D318 immunoreactivity was detected in caspase-8(-/-) and caspase-3(-/-) mouse embryonic fibroblasts expressing poly(Q)(72) aggregates. Thus, caspase-12 was activated by poly(Q)(72) aggregates via a pathway independent of caspase-8 and caspase-3 activation, and caspase-12 activation was closely associated with poly(Q) aggregate-mediated cell death. Stimulation of ER stress signals may be involved in the pathogenesis of neurodegenerative disorders with poly(Q) expansion.
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PMID:Polyglutamine aggregates stimulate ER stress signals and caspase-12 activation. 1204 4

The effects of lemon pure essential oils on the heat shock-induced apoptosis in human astrocytes cell line CCF-STTG1 were examined. In previous studies, heat shock has been reported to induce the apoptosis or programmed cell death through the activation of caspase-3. Treatment of heat shock on CCF-STTG1 cells markedly induced apoptotic cell death as determined by flow cytometry. Interestingly, pre-treatment with lemon pure essential oils on CCF-STTG1 cells inhibited the heat shock-induced apoptosis. Lemon oil also inhibited the heat shock-induced apoptosis in primary cultured rat astrocytes. To determine whether lemon oil inhibits the heat shock-induced activation of the apoptotic proteases, activation of caspase-3 was assessed by Western blotting. DNA fragmentation, giemsa staining, and heat shock-induced activation of caspase-3 were blocked by lemon pure essential oil, which is consistent with flow cytometry. Poly-ADP-ribose polymerase (PARP), the cysteine protease substrate, was fragmented as a consequence of apoptosis by heat shock. Lemon oil inhibited the PARP fragmentation. These results suggest that lemon pure essential oils may modulate the apoptosis through the activation of the interleukin-1 beta -converting enzyme-like caspases.
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PMID:Inhibitory effect of apoptosis in human astrocytes CCF-STTG1 cells by lemon oil. 1216 47

Poly (ADP-ribose) polymerase is a zinc-finger DNA-binding enzyme which detects and signals DNA strand breaks generated either directly during base excision repair, or indirectly by genotoxic agents such as oxygen radicals. In response to genotoxic injury, PARP catalyses the synthesis of poly (ADP-ribose), from its substrate beta-NAD+ and this polymer is covalently attached to several nuclear proteins and PARP itself. As a result, PARP converts DNA breaks into intracellular signals which activate DNA repair programs or cell death options. Several studies have also shown that PARP is involved in either necrosis and subsequent inflammation or apoptosis. Although this enzyme is not indispensable during the latter cell death program, it has been demonstrated that PARP plays a facilitating role in this process. PARP is activated at an intermediate stage of apoptosis and is then cleaved and inactivated at a late stage by apoptotic proteases, namely caspase-3/CPP-32/Yama/apopain and caspase-7. This cleavage prevents necrosis during apoptosis, avoiding inflammation. All these functions, and the observation that PARP is an abundant and highly conserved enzyme, suggest that this enzyme plays a pivotal role, particularly in the maintenance of genomic DNA stability, apoptosis and in the response to oxidative stress. Since these situations are found in cancer, inflammation, autoimmunity (such as diabetes), myocardial dysfunction, certain infections, ageing and radiation/chemical exposure, attempts have been made to modulate PARP activity. With regard to the increasing interest towards PARP, the aim of this review is to explain the cellular role of PARP and the advantages of modulating its activity in diverse preventive or therapeutic strategies.
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PMID:Modulating poly (ADP-ribose) polymerase activity: potential for the prevention and therapy of pathogenic situations involving DNA damage and oxidative stress. 1216 82

Point mutations and duplications of proteolipid protein (PLP) gene in mammals cause dysmyelination and oligodendrocyte cell death. The jimpy mouse, which has a lethal Plp point mutation, is the best characterized of the mutants; transgenic mice, which have additional copies of Plp gene, are less characterized. While oligodendrocyte death is a prominent feature in jimpy, the pathways leading to death have not been investigated in jimpy and Plp overexpressors. Using immunohistochemistry and immunobloting, we examined expression of cleaved caspase-3, Poly (ADP-ribose) polymerase (PARP), caspase-12, and mitochondrial apoptotic markers in spinal cord in jimpy males and Plp overexpressors. Compared to controls, cleaved caspase-3 is increased 10x in jimpy white matter spinal cord, and 3x in Plp overexpressor. In jimpy, the number of cleaved caspase-3 cells far exceeds the number of TUNEL(+) cells. The majority of cleaved caspase-3(+) cells were not TUNEL(+) and these cells exhibited staining in perikarya and in processes. Only 30% of the cleaved caspase-3(+) cells were TUNEL(+) and exhibited both nuclear and perinuclear staining. This observation suggests that activation of caspase-3 begins earlier and overlaps for a period of time with DNA fragmentation. In both Plp mutants, quantitative immunobloting of PARP showed a 45% increase in total as well as cleaved form, indicating that oligodendrocytes die via apoptosis. Most interestingly, cleavage of caspase-12, a caspase associated with unfolded protein response, is dramatically increased in jimpy but not at all in Plp overexpressors. Mitochondrial markers cytochrome c and Bcl-X(L) are upregulated in both Plp mutants but levels of expression are different between mutants, suggesting that apoptosis in these two Plp mutants follows different pathways. In jimpy, mitochondrial apoptotic markers may play a role in amplifying the apoptotic signal. Our data shows for the first time, in vivo, that mutations in Plp gene increase oligodendrocyte death by activating the caspase cascade but the trigger to upregulate this cascade follows different pathways.
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PMID:Differential expression of apoptotic markers in jimpy and in Plp overexpressors: evidence for different apoptotic pathways. 1216 74

This study was aimed to determine whether administration of an inhibitor of caspase-3 protects hepatocellular function in rats with hemorrhagic shock and whether caspases are important pharmacological targets in attenuating liver injury induced by hemorrhagic shock and resuscitation. Male adult rats were subjected to hemorrhagic shock by bleeding to a mean arterial blood pressure of 35-40 mmHg for 1 h and were then resuscitation with 60% shed blood and lactated Ringers solution. A subgroup of animals was injected i.v. with 2 mg/kg caspase inhibitor, Z-DEVD-FMK, prior to blood withdrawal. Fas ligand expression was markedly elevated and caspase-3 activity increased by 3-fold in hemorrhagic untreated rats. The increase in caspase-3 activity was prevented by administration of Z-DEVD-FMK prior to shock and resuscitation. Poly (adenosine diphosphate ribose) polymerase proteolysis was reduced in rats treated with the caspase-3 inhibitor compared with hemorrhagic untreated animals. Plasma aspartate aminotransferase and alanine aminotransferase values showed a significant increase at 6 h of shock in untreated animals (+360% and +515% as compared with sham-operated animals, respectively). Administration of the caspase-3 inhibitor did not prevent the increase in plasma transaminases. The cytosolic concentration of thiobarbituric acid-reactive substances (TBARS) and the oxidized:reduced glutathione ratio increased in the animals with hemorrhagic shock (+94% and +170%, respectively). These parameters were not significantly modified by pretreatment with Z-DEVD-FMK. It appears that caspase inhibition does not attenuate hepatocellular depression and liver injury induced by hemorrhagic shock and resuscitation.
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PMID:Caspase inhibition does not protect against liver damage in hemorrhagic shock. 1255 41


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