Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0017636 (glioblastoma)
 18,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Glioblastoma is a lethal neoplasm resistant to conventional radiotherapy and chemotherapy. Natural born killer (NBK), also known as Bcl-2-interacting killer (BIK), is a death-promoting Bcl-2 family protein sharing with Bcl-2 only the Bcl homology 3 (BH3) domain. We here report that an adenoviral vector encoding NBK (Ad-NBK) uniformly induces cell death in 12 human malignant glioma cell lines. Ad-NBK-induced cell death involves neither quantitative mitochondrial cytochrome c release nor caspase 8, 9, 7, or 3 processing and is unaffected by the viral caspase inhibitor, cytokine response modifier A (CRM-A), or selective caspase 8 or 9 inhibitors. In contrast, Ad-NBK-induced cell death is inhibited by the broad-range caspase inhibitor, zVAD-fmk, or by adenoviral gene transfer of the X-linked inhibitor of apoptosis protein (XIAP). Further, Ad-NBK-induced cell death is inhibited by Bcl-2 or Bcl-xL gene transfer. Interestingly, Bcl-2- and Bcl-xL-transfected glioma cells, which are partially protected from Ad-NBK-induced cell death, accumulate much higher levels of NBK than are ever observed in control-infected cells. This indicates that complex formation with Bcl-2 or Bcl-xL sequesters NBK in an inactive form and that free NBK, rather than an NBK-mediated depletion of free antiapoptotic Bcl-2 family proteins, is the proximate mediator of Ad-NBK-induced cell death. Conversely, proteasome inhibition-mediated accumulation of NBK strongly enhances Ad-NBK-induced cell death. Finally, Ad-NBK-infected LN-229 glioma cells are not tumorigenic in nude mice. Thus Ad-NBK triggers an XIAP- and zVAD-fmk-sensitive cell death pathway in glioma cells with potential therapeutic value, provided that NBK expression can be selectively targeted to cancer cells.
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PMID:Adenoviral natural born killer gene therapy for malignant glioma. 1295 95

We have studied the effect of tri-phenyl tin benzimadazolethiolcopper chloride (TPT-CuCl(2)), a novel bimetallic compound, on the regulation of apoptosis in HeLa cells, MCF-7 cells, and in vivo Wistar rat model. TPT-CuCl(2) induces significant apoptosis in HeLa cell line characterized by DNA fragmentation and chromosome condensation. Comet assay revealed that TPT-CuCl(2) targets and causes severe damage to the DNA. Treatment of HeLa cells with TPT-CuCl(2) rescues the accumulation of p53 from the suppression of human papilloma virus E6, resulting in a dramatic up-regulation of Bax and Bak and down-regulation of the antiapoptotic factor Survivin. Apoptotic induction by TPT-CuCl(2) was shown to mediate in a p53-depedent manner; loss of p53 impairs the release of cytochrome c and Smac/DIABLO from mitochondria to cytosol. Moreover, we have shown that TPT-CuCl(2) induced-apoptosis was through an intrinsic mitochondrial pathway, which was inhibited by viral oncoprotein E1B19K. Caspase-3 was found to be indispensable in TPT-CuCl(2)-triggered apoptosis signaling pathway, because caspase-3 deficient cell line MCF-7 was resistant to TPT-CuCl(2). Furthermore, in vivo studies using C6 glioblastoma xenograft rat model revealed that TPT-CuCl(2) exhibits significant antiproliferative activity against tumor development with minimal cytotoxicity toward normal physiological function of the experimental rats. These findings imply the attractiveness of TPT-CuCl(2) as a drug candidate for further development.
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PMID:p53-dependent apoptotic mechanism of a new designer bimetallic compound tri-phenyl tin benzimidazolethiol copper chloride (TPT-CuCl2): in vivo studies in Wistar rats as well as in vitro studies in human cervical cancer cells. 1517 13

During the physiological process of PCD, the cell initiates a sequence of events culminating in the disintegration of the cell into small, membrane-bound apoptotic bodies. The intrinsic part of the PCD program arises from the mitochondria when it releases cytochrome c from the mitochondrial intermembrane space into the cytosol, forming the caspase-activating complex or apoptosome. The family of caspases is involved in the execution of genetically controlled PCD. Caspase-3 is expressed in normal and neoplastically transformed human cells and, like other caspases, is synthesized as an inactive, 32kDa proenzyme. Caspase-6 cleaves nuclear mitotic apparatus protein (NuMA) and mediates the shrinkage and fragmentation of cell nuclei. Caspase-8 is an initiation caspase that activates the caspase cascade during apoptosis, while caspase-9 is the initiator caspase in the caspase cascade in apoptotic normal and neoplastically transformed cells. During our immunocytochemical study, a sensitive, four-step, alkaline phosphatase conjugated antigen detection technique was employed. The results did in fact demonstrate the presence of high apoptotic activity within the cellular microenvironment of high-grade astrocytomas and glioblastomas. The observations identified cytoplasmic expression of caspase-3 and caspase-6 in more than 50 per cent of tumor cells, caspase-8 and caspase-9 in more than 10 per cent of tumor cells in high-grade anaplastic ASTR and glioblastoma. The immunocytochemical expression pattern in about 10 per cent of the tumor cells for caspase-3 and caspase-6 and about 1 to 5 per cent of the tumor cells for caspase-8 and caspase-9 demonstrated a translocation tendency from the cytoplasm to the cell nuclei in the apoptotic cells. This phenomenon may play an important role in these tumors' maintenance of immune privilege and evasion of immune attacks. We suggest that caspase-3, -6, -8 and -9 immunocytochemistry could have prognostic and immunotherapeutic significance in the treatment of these highly malignant glial tumors.
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PMID:Immunocytochemical detection of members of the caspase cascade of apoptosis in high-grade astrocytomas. 1552 99

Norcantharidin (NCTD), the demethylated analogue of cantharidin, has been used to treat human cancers in China since 1984. It was recently found to be capable of inducing apoptosis in human colon carcinoma, hepatoma and glioblastoma cells by way of an elusive mechanism. In this study, we demonstrated that NCTD also induces apoptosis in human oral cancer cell lines SAS (p53 wild-type phenotype) and Ca9-22 (p53 mutant) as evidenced by nuclear condensation, TUNEL labeling, DNA fragmentation and cleavage of PARP. Apoptosis induced by NCTD was both dose- and time-dependent. We found NCTD did not induce Fas and FasL, implying that it activated other apoptosis pathways. Our data showed that NCTD caused accumulation of cytosolic cytochrome c and activation of caspase-9, suggesting that apoptosis occurred via the mitochondria mediated pathway. NCTD enhanced the expression of Bax in SAS cells consistent with their p53 status. Moreover, we showed that NCTD downregulated the expression of Bcl-2 in Ca9-22 and Bcl-XL in SAS. Our results suggest that NCTD-induced apoptosis in oral cancer cells may be mediated by an increase in the ratios of proapoptotic to antiapoptotic proteins. Since oral cancer cells with mutant p53 or elevated Bcl-XL levels showed resistance to multiple chemotherapeutic agents, NCTD may overcome the chemoresistance of these cells and provide potential new avenues for treatment.
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PMID:Norcantharidin-induced apoptosis in oral cancer cells is associated with an increase of proapoptotic to antiapoptotic protein ratio. 1559 95

A new integrated optical and electrochemical sensor system for simultaneous monitoring of intra- and extracellular superoxide (O(2)(-)) was developed using an array-based cell chip. For in vitro assays, A172 human glioblastoma cells were transferred into the cell chip and stimulated by phorbol 12-myristate 13-acetate (PMA). Intracellular O(2)(-) generation was detected via fluorescence image analysis with a dye probe, dihydrorhodamine 123 (DHR 123). Extracellular O(2)(-) was detected using an amperometric sensor constructed by immobilisation of cytochrome c using a binder, 3,3'-dithiobis(sulphosuccinimidylpropionate), to attach the redox protein onto the surface of electrodeposited Au electrodes incorporated into the optically transparent cell chip. The simultaneous intra- and extracellular production of O(2)(-) was successfully observed from PMA-stimulated A172 cells and inhibited by superoxide dismutase (SOD). The quantification of O(2)(-) concentration based on a mathematical model study and possible applications using the sensor system developed were discussed. The results confirm that there was no detectable interference or crosstalk between the optical and electrochemical assays. Feasibility of the integration of the two methods, optical and electrochemical, and the neutralisation of the intra- and extracellular O(2)(-) levels by SOD have been demonstrated.
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PMID:Simultaneous intra- and extracellular superoxide monitoring using an integrated optical and electrochemical sensor system. 1565 91

Mechanisms related to the neuropathogenesis of enterovirus 71 infection remain unclear. This investigation conducts a comprehensive study of the apoptotic pathways in neural and non-neural cells following enterovirus 71 infection. Infections with enterovirus 71 not only induce classical cytopathic effects in SF268 (human glioblastoma), SK-N-MC (human neuroblastoma), RD, and Vero cells, but also induce classic signs of apoptosis in all cells, including DNA fragmentation and phosphatidylserine translocation. Apoptosis has also been caused by the efflux of cytochrome c from mitochondria, and subsequently by cleavage of caspase 9 in all cells. Activation of caspase 8 followed by cleavage of the proapoptotic protein Bid only occurs in non-neural cells. Results of this study demonstrate that a mitochondrial pathway of apoptosis mediated by activation and cleavage of caspase 9 is a main pathway in enterovirus 71-induced apoptosis, especially for enterovirus 71-infected neural cells.
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PMID:Diverse apoptotic pathways in enterovirus 71-infected cells. 1576 5

We previously reported that the synthetic chenodeoxycholic acid (CDCA) derivatives showed apoptosis-inducing activity on various cancer cells in vitro. This study was undertaken to explore whether synthetic CDCA derivatives, HS-1199 and HS-1200, had an anticancer effect on malignant glioblastoma cells. We administered them in culture to U-118MG, U-87MG, T98G, and U-373MG cells. The tested glioblastoma cells showed several lines of apoptotic manifestations, such as activation of caspase-3, degradation of DFF, production of poly(ADP-ribose) polymerase cleavage, nuclear condensation, inhibition of proteasome activity, reduction of mitochondrial membrane potential and the release of cytochrome c to cytosol and translocation of AIF to nuclei. Between the two synthetic derivatives, HS-1200 showed a stronger apoptosis-inducing effect than HS-1199. In vivo efficacy of HS-1200 was tested in U87MG cells inoculated into non-obese diabetic and severe combined immunodeficient (NOD/SCID) mice. The HS-1200 treatment significantly inhibited the increase of tumor size in NOD/SCID mice and prolonged the life spans. This study supports the possibility of synthetic CDCA derivatives as a potential chemotherapeutic agent.
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PMID:Synthetic chenodeoxycholic acid derivatives inhibit glioblastoma multiform tumor growth in vitro and in vivo. 1607 13

Nitric oxide (NO) is a chemical messenger implicated in neuronal damage associated with ischemia neurodegenerative disease and excitotoxicity. In the present study, we examined the biological effects of NO and its mechanisms in human malignant glioblastoma cells. Addition of a NO donor, S-nitroso-N-acetyl-penicillamine (SNAP), induced apoptosis in U87MG human glioblastoma cells, accompanied by opening mitochondrial permeability transition pores, release of cytochrome c and AIF, and subsequently by caspase activation. NO-induced apoptosis occurred concurrently with significantly increased levels of the Bak and Bim. Treatment with SNAP resulted in sustained activation of JNK and its downstream pathway, c-Jun/AP-1. The expression of dominant-negative (DN)-JNK1 and DN-c-Jun suppressed the activation of AP-1, the induction of Bak and Bim, and the SNAP-induced apoptosis. In addition, de novo protein synthesis was required for the initiation of apoptosis in that the protein synthesis inhibitor, cycloheximide (CHX), inhibited NO-induced apoptotic cell death as well as up-regulation of Bak and Bim. These results suggest that NO activates an apoptotic cascade, involving sustained JNK activation, AP-1 DNA binding activity, and subsequent Bak and Bim induction, followed by cytochrome c and AIF releases and caspases cascade activation, resulting in human malignant brain tumor cell death.
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PMID:Up-regulation of Bak and Bim via JNK downstream pathway in the response to nitric oxide in human glioblastoma cells. 1615 21

A new approach for an amperometric array sensor platform employing arrays of sensors in a 24-well cell culture plate format has been developed for simultaneous in vitro determination of nitric oxide (NO) and superoxide free radicals (O(2)(-)) produced by stimulated cells. The work reported focuses on the direct, real-time monitoring of extracellular production of these two analytes, as well as the effects of their interaction. The sensor platform was manufactured by a combination of sputtering gold electrodes and screen-printing carbon electrodes. The O(2)(-) sensor uses covalent immobilization of cytochrome c via a binder, DTSSP (3,3'-dithio-bis(sulphosuccinimidylpropionate) onto the surface of the Au electrodes, whereas the NO sensor system involves an NiTSPc (nickel tetrasulfonated phthalocyanine) film electrodeposited onto the surface of the carbon electrodes and subsequently covered with an external layer of Nafion. For in vitro demonstration of the platforms as a potential drug-screening system, A172 glioblastoma cells were cultured and transferred into the 24-well arrays. Simultaneous and direct monitoring of NO and O(2)(-) production as a response to chemicals of biomedical relevance was carried out. The results obtained demonstrated that it would be possible to envisage a drug screening platform for compounds designed to be inhibitors of nitric oxide synthase or to have an inhibitory effect on superoxide free radical production. By suitable modification of the electrodes employed it would also be possible to extend the platform to measure alternative species.
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PMID:An electrochemical sensor array system for the direct, simultaneous in vitro monitoring of nitric oxide and superoxide production by cultured cells. 1625 61

Arsenic trioxide (As(2)O(3)) is effective against acute promyelocytic leukemia and has potential as a novel treatment against malignant solid tumors. As(2)O(3) induces differentiation and inhibits growth. It also causes mitochondrial damage mediated by the production of reactive oxygen species (ROS) and the dissipation of mitochondrial transmembrane potential (DeltaPsi(m)), leading to apoptosis. Mitochondria might be the key target of antitumor activity by As(2)O(3); however, its mechanisms have not been completely elucidated. Using two human glioblastoma cell lines, A172 and T98G, we found that As(2)O(3) induced apoptosis in A172 cells but not in T98G cells. As(2)O(3)-induced ROS production was observed in both cell lines; however, the dissipation of DeltaPsi(m), Bax oligomerization and caspase activation occurred only in As(2)O(3)-sensitive A172 cells. To determine the mechanisms of As(2)O(3)-induced apoptosis after ROS generation, we examined the change of mitochondrial morphology. As we reported previously, mitochondrial aggregation occurs before cytochrome c release during apoptosis, thus playing a role in cell death progression. We observed mitochondrial aggregation in As(2)O(3)-sensitive A172 cells but not in T98G cells treated with As(2)O(3). Using laser scanning cytometry, we quantitatively confirmed the results, which indicate that mitochondrial aggregation plays an important role in regulating sensitivity to As(2)O(3)-induced apoptosis. We propose a sequential process involving ROS generation, mitochondrial aggregation, Bax oligomerization and DeltaPsi(m) dissipation, and caspase activation during As(2)O(3)-induced apoptosis.
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PMID:Involvement of mitochondrial aggregation in arsenic trioxide (As2O3)-induced apoptosis in human glioblastoma cells. 1627 Oct 77


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