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)

Significant injury during bacterial meningitis arises from mechanisms of neuronal apoptosis, particularly in the hippocampus. Apoptosis can involve both the caspase-dependent and the caspase-independent pathway, and, although both pathways have been implicated in pneumococcus-induced neuronal cell death, their relative contributions in vivo are unclear. We used mice deficient in the activation of caspase-3, ATM, and p53 to examine the role that caspase-dependent apoptosis plays in neuronal death in the context of pneumococcal meningitis. The overall symptomatology of acute infection was similar in all mice tested, indicating that late sequelae are the clinical manifestations of neuronal death. Two phases of apoptosis were discernible: neuronal injury at 18 h after infection was independent of the caspase-3 pathway, and neuronal cell death at 24 h after infection was attenuated in the absence of the caspase-3 pathway. We conclude that treatments to increase the survival rate of neurons in patients with meningitis will need to take into account at least these 2 mechanisms of damage.
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PMID:Dual phases of apoptosis in pneumococcal meningitis. 1552 70

Reviewed are the methods aimed to detect DNA damage in individual cells, estimate its extent and relate it to cell cycle phase and induction of apoptosis. They include the assays that reveal DNA fragmentation during apoptosis, as well as DNA damage induced by genotoxic agents. DNA fragmentation that occurs in the course of apoptosis is detected by selective extraction of degraded DNA. DNA in chromatin of apoptotic cells shows also increased propensity to undergo denaturation. The most common assay of DNA fragmentation relies on labelling DNA strand breaks with fluorochrome-tagged deoxynucleotides. The induction of double-strand DNA breaks (DSBs) by genotoxic agents provides a signal for histone H2AX phosphorylation on Ser139; the phosphorylated H2AX is named gammaH2AX. Also, ATM-kinase is activated through its autophosphorylation on Ser1981. Immunocytochemical detection of gammaH2AX and/or ATM-Ser1981(P) are sensitive probes to reveal induction of DSBs. When used concurrently with analysis of cellular DNA content and caspase-3 activation, they allow one to correlate the extent of DNA damage with the cell cycle phase and with activation of the apoptotic pathway. The presented data reveal cell cycle phase-specific patterns of H2AX phosphorylation and ATM autophosphorylation in response to induction of DSBs by ionizing radiation, topoisomerase I and II inhibitors and carcinogens. Detection of DNA damage in tumour cells during radio- or chemotherapy may provide an early marker predictive of response to treatment.
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PMID:Cytometric assessment of DNA damage in relation to cell cycle phase and apoptosis. 1609 82

CKIP-1 (casein kinase-2 interacting protein-1) is implicated in muscle differentiation, regulation of cell morphology and actin cytoskeleton. More recently, we showed that CKIP-1 regulated AP-1 activity and promoted apoptosis via caspase-3-dependent cleavage and translocation. Here, we report that overexpression of CKIP-1 in SK-BR-3 breast cancer cells prevents p53 degradation induced by cycloheximide treatment through increase of p53 N-terminal Ser-15 phosphorylation level. CKIP-1 could interact with ATM, which is an upstream kinase of p53, thereby enhance the stability of p53. Interestingly, CKIP-1 is localized both at the plasma membrane and in the nucleus dependent on the cell types, and only the plasma membrane-localized CKIP-1 could form a complex with ATM. Importantly, CKIP-1 recruits nuclear ATM proteins partially to the plasma membrane. Our data provide the first evidence that ATM, a predominantly nuclear kinase, could be relocalized to the plasma membrane by CKIP-1 and shed new light on the multi-functional CKIP-1.
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PMID:CKIP-1 recruits nuclear ATM partially to the plasma membrane through interaction with ATM. 1632 75

Red wine polyphenol, trans-resveratrol (trans-3,4',5-trihydroxy stilbene), has potent chemopreventive effects against various tumors. In this study, we found for the first time that resveratrol rapidly induces S phase cell cycle arrest of human malignant B cells including myeloma cells in dose- and time-dependent manners, followed by S phase cell cycle arrest through ATM/Chk pathway. Resveratrol-induced apoptosis occurs in association with the activation of caspase-3 and the loss of mitochondrial transmembrane potentials. In addition, resveratrol induces the phosphorylation of p38 MAP kinase, and specific inhibition of p38 MAP kinase abolishes the resveratrol-induced apoptosis, indicating that activation of the p38 MAP kinase pathway is required for inducing apoptosis in malignant B cells. These results suggest that resveratrol may have potential as a novel therapeutic agent for the patients with B cell malignancies including multiple myeloma.
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PMID:Resveratrol induces apoptosis of human malignant B cells by activation of caspase-3 and p38 MAP kinase pathways. 1642 27

DNA damage can lead to either DNA repair with cell survival or to apoptotic cell death. Although the biochemical processes underlying DNA repair and apoptosis have been extensively studied, the mechanisms by which cells determine whether the damage will be repaired or the apoptotic pathway will be activated is largely unknown. We have studied the role of nucleotide excision repair (NER) in cisplatin DNA damage-induced apoptotic cell death using both normal human fibroblasts and NER-defective xeroderma pigmentosum (XP) XPA and XPG cells. The caspase-3 activation experiment demonstrated a greatly increased casapse-3 activation in the NER-defective cells following cisplatin treatment. The flow cytometry experiment revealed an altered cell cycle arrest pattern of the NER-defective cells following cisplatin treatment. The results obtained from the Western blot experiment showed that NER defects resulted in enhanced CHK1 phosphorylation and p21 induction after cisplatin treatment. The cisplatin treatment-induced ATM phosphorylation, however, was attenuated in NER-defective cells. The results obtained from our immunoprecipitation experiment further demonstrated that the ATM protein interacted with the TFIIH basal transcription factor and the XPG protein of the NER pathway. It also showed that a functional XPC protein was required for the association of the ATM protein to genomic DNA. These results suggest that the NER process may prevent the cisplatin treatment-induced apoptosis by activating the ATM protein, and that the presence of the XPC protein is essential for recruiting the ATM protein to the DNA template.
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PMID:The involvement of ataxia-telangiectasia mutated protein activation in nucleotide excision repair-facilitated cell survival with cisplatin treatment. 1684 32

Cisplatin induces renal cell injury and death, resulting in nephrotoxicity that limits its use in cancer therapy. Using cell culture models, recent work has suggested the involvement of p53 in renal cell apoptosis during cisplatin treatment. However, the signals upstream of p53 remain elusive. ATM and ATR are critical regulators of p53 under various conditions of DNA damage. Here, we show that ATM, and not ATR, was proteolytically cleaved into specific fragments of approximately 210 and 150 kDa during cisplatin-induced tubular cell apoptosis. ATM cleavage was paralleled by the development of apoptosis. VAD, a broad-spectrum inhibitor of caspases, attenuated the cleavage of ATM, whereas the inhibitors of specific caspases were less effective. In caspase-3-deficient MCF-7 cells, ATM was cleaved, releasing the 210- but not the 150-kDa fragment. Recombinant caspase-3 was much more effective than caspase-7 in cleaving ATM that was immunoprecipitated from cell lysates. During cisplatin incubation, VAD protected ATM and enhanced p53 phosphorylation. In vitro assay of protein kinase activity further showed that ATM immunoprecipitated from cisplatin-treated cells had significantly lower kinase activity toward p53 than that from control cells. Importantly, the protein kinase activity was restored in ATM that was protected by VAD during cisplatin incubation. ATM deficiency sensitized the cells to cisplatin-induced apoptosis, suggesting a cytoprotective role of ATM in this experimental model. Thus proteolysis of ATM by caspases may inactivate this regulatory molecule to facilitate the progression of apoptosis.
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PMID:Caspase-mediated cleavage of ATM during cisplatin-induced tubular cell apoptosis: inactivation of its kinase activity toward p53. 1684 90

Nitric oxide-releasing acetylsalicylic acid (NO-ASA; NO-aspirin) developed as an anti-inflammatory agent that was expected to avoid some of the adverse effects of aspirin (ASA), was recently shown to be cytotoxic to cells of different tumor lines. The cytotoxic properties and potency of NO-ASA are different than those of ASA which implies that the intracellular targets for NO-ASA and ASA, and their mechanism of action, are different. The aim of the present study was to reveal whether the cytotoxicity induced by NO-ASA is mediated by damage to DNA. We observed that even brief (1 h) treatment of human B-lymphoblastoid TK6 cells with >or=5 microM NO-ASA led to DNA damage revealed by the alkaline and neutral comet assays, histone H2AX phosphorylation on Ser 139, and ATM phosphorylation on Ser 1981, a marker of activation of this kinase. The induction of H2AX phosphorylation was preferential to S-phase cells. Exposure to >or=5 microM NO-ASA for over 3 h led to apoptosis, also preferentially of S-phase cells. Apoptosis was atypical; while chromatin was highly condensed there was no evidence of nuclear fragmentation nor were the cells positive in the TUNEL assay though they did express activated caspase-3. The induction of phosphorylation of H2AX on Ser 139 by NO-ASA was markedly attenuated in the presence of N-acetyl-L-cysteine, a scavenger of reactive oxygen species (ROS). The data imply that the NO-ASA induces DNA damage through oxidative stress; the oxidation-generated lesions provide a signal for induction of H2AX phosphorylation during DNA replication, perhaps when the progressing replication forks collide with the primary lesions converting them to DNA double-strand breaks. Because neither induction of H2AX phosphorylation nor apoptosis were observed at equimolar concentrations of ASA, the NO moiety attached to ASA appeared to mediate these effects.
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PMID:Nitrogen oxide-releasing aspirin induces histone H2AX phosphorylation, ATM activation and apoptosis preferentially in S-phase cells: involvement of reactive oxygen species. 1686 26

We demonstrated here for the first time that zerumbone (ZER), a natural cyclic sesquiterpene, significantly suppressed the proliferation of promyelocytic leukemia NB4 cells among several leukemia cell lines, but not human umbilical vein endothelial cells (HUVECs), by inducing G2/M cell cycle arrest followed by apoptosis with 10 microM of IC50. Treatment of NB4 cells with growth-suppressive concentrations of ZER resulted in G2/M cell cycle arrest that was associated with a decline of Cyclin B1 protein, but with the phosphorylation of ATM/ Chk1/Chk2. In addition, ZER induced the phosphorylation of Cdc25C at the Thr48 residue and Cdc2 at the Thr14/Tyr15 residues. Furthermore, ZER-induced apoptosis in NB4 cells was initiated by the expression of Fas (CD95)/Fas Ligand (CD95L), concomitant with the activation of caspase-8. ZER was also found to induce the cleavage of Bid, a mediator that is known to connect the Fas/CD95 cell death receptor to the mitochondrial apoptosis pathway. ZER also induced the cleavage of Bax and Mcl-1 proteins, but not Bcl-2 or Bcl-XL. ZER-induced apoptosis took place in association with a loss of the mitochondrial transmembrane potential as well as the activation of caspase-3 and -9, resulting in the degradation of the proteolytic poly (ADP-ribose) polymerase (PARP). ZER also triggered a release of cytochrome c into the cytoplasm. Both antagonistic anti-Fas antibody ZB4 and pan-caspase inhibitor Z-VAD inhibited ZER-induced apoptosis in NB4 cells. Taken together, ZER is an inducer of apoptosis in leukemic cells that specifically triggers the Fas/CD95- and mitochondria-mediated apoptotic signaling pathway.
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PMID:Zerumbone, a bioactive sesquiterpene, induces G2/M cell cycle arrest and apoptosis in leukemia cells via a Fas- and mitochondria-mediated pathway. 1712 59

Etoposide (VP-16) belongs to the family of DNA topoisomerase II (topo2) inhibitors, drugs widely used in cancer chemotherapy. Their presumed mode of action is stabilization of "cleavable complexes" between topo2 and DNA; collisions of DNA replication forks with these complexes convert them into DNA double-strand breaks (DSBs), potentially lethal lesions that may trigger apoptosis. Immunocytochemical detection of activation of ATM (ATM-S1981P) and histone H2AX phosphorylation (gammaH2AX) provides a sensitive probe of the induction of DSBs in individual cells. Using multiparameter cytometry we measured the expression of ATM-S1981P and gammaH2AX as well as initiation of apoptosis (caspase-3 activation) in relation to the cell cycle phase in etoposide-treated human lymphoblastoid TK6 cells. The induction of ATM-S1981P and gammaH2AX was seen in all phases of the cell cycle. The G(1)-phase cells, however, preferentially underwent apoptosis. The extent of etoposide-induced H2AX phosphorylation was partially reduced by N-acetyl-L-cysteine (NAC), a scavenger of reactive oxygen species (ROS). The maximal reduction of H2AX phosphorylation by NAC, seen in G(1)-phase cells, was nearly 50%. NAC also protected a fraction of G(1) cells from etoposide-induced apoptosis, but had no such effect on S or G(2)M cells. However, no significant rise in the intracellular level of ROS upon treatment with etoposide was detected. The effects of etoposide were compared with the previously investigated effects of another topo2 inhibitor, mitoxantrone. The latter was seen to induce a maximal level of ATM-S1981P and gammaH2AX (partially abrogated by NAC) in G(1)-phase cells, but unlike etoposide, triggered apoptosis exclusively of S-phase cells. The data suggest that in addition to the generally accepted mechanism involving collisions of replication forks with the "cleavable complexes", other mechanisms which appear to be different for etoposide vs. mitoxantrone, may contribute to formation of DSBs and to triggering of apoptosis.
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PMID:Induction of ATM activation, histone H2AX phosphorylation and apoptosis by etoposide: relation to cell cycle phase. 1729 10

X-linked inhibitor of apoptosis protein (XIAP) is a member of the inhibitor of apoptosis proteins family that selectively binds and inhibits caspase-3, -7 and -9. As such, XIAP is an extremely potent suppressor of apoptosis and an attractive target for cancer treatment. Che-1 is an antiapoptotic agent involved in the control of gene transcription and cell proliferation. Recently, we showed that the checkpoint kinases ATM/ATR and checkpoint kinase 2 physically and functionally interact with Che-1 and promote its phosphorylation and accumulation in response to DNA damage. These Che-1 modifications induce transcription of p53, and Che-1 depletion strongly sensitizes tumor cells to anticancer drugs. Here we show that Che-1 activates XIAP expression in response to DNA damage. This effect is mediated by Che-1 phosphorylation and requires NF-kappaB. Notably, we found that XIAP expression is necessary for antiapoptotic activity of Che-1 and that in vivo downregulation of Che-1 by small interference RNA strongly enhanced the cytotoxicity of anticancer drugs.
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PMID:Che-1 activates XIAP expression in response to DNA damage. 1804 76


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