UMLS:C0017638 - FACTA Search

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Query: UMLS:C0017638 (glioma)
30,880 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Southern blot analyses of the 9p-localized type I interferon (IFN) genes in DNAs obtained from malignant glioma cell lines and glial tumor tissue have indicated that homozygous deletions of the IFN-alpha and IFN-beta genes often occur during the development of the highly malignant central nervous system neoplasm, glioblastoma. We have applied a set of markers that span the IFN region on 9p to the analysis of DNAs from 30 human glioma cell lines in order to define the region of homozygous deletion associated with this cancer more precisely. Fourteen of the cell lines revealed either complete (12 cases) or partial (2 cases) homozygous deletions of the IFN-alpha gene cluster; no instances of homozygous deletions were observed that did not involve the IFN-alpha region. Genomic DNA identified by the markers nearest to and flanking the IFN-alpha genes were retained in 5 of the cases with homozygous deletions. Consequently, these results limit the extent of homozygous deletions in glioma cell lines to a small region of 9p21-p22 that includes most of the type I IFN locus.
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PMID:Localization of chromosome 9p homozygous deletions in glioma cell lines with markers constituting a continuous linkage group. 833 74

The development of a malignant tumor generally entails a series of events that damage the genome of a somatic cell and result in the malignant phenotype. These events chronicle the malignant progression of a tumor; a dynamic process in which more aggressive and growth-deregulated cell populations are constantly evolving. Gliomas, the most common primary tumors of brain, are known to become increasingly malignant with time. Within recent years, several details of the molecular genetic events associated in their progression have been determined. The earliest events of glioma progression include loss of genetic information from the long arms of chromosomes 13 or 22, or the short arm of chromosome 17 for which targeting of the TP53 (p53) gene has been indicated. Loss of a single complement of type I interferon (IFN) genes from 9p and loss of genetic information from 19q are seen in the tumors of intermediate malignancy grade. Events associated with the most malignant of glial tumors include loss of the second, type I IFN gene complement, loss of genetic information from chromosome 10, and gene amplification (most commonly the epidermal growth factor receptor, in 40% of cases). These findings have helped elucidate the events associated with glial tumorigenesis, and through the identification of specific genes, have provided a starting point for investigating the molecular biology of central nervous system neoplasia.
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PMID:Gene and chromosomal alterations associated with the development of human gliomas. 834 89

Mouse glioma-26 (G-26) cell line established in this laboratory was used in the study. The in vitro effect of ascorbyl esters, viz., ascorbyl-palmitate (As-P), -stearate (As-S) and mouse interferon-alpha/beta (MulFN-alpha/beta) on the glioma cell viability, proliferation and glutathione S-transferase (GST) activity was investigated. Cell viability and proliferation were examined by colorimetric MTT assay and [3H]-thymidine incorporation, respectively. Incubation (24h) of G-26 cells with As-S, As-P or MulFN-alpha/beta, resulted in a dose dependent decrease in cell viability (IC50 = 125 microM As-S; 175 microM As-P and 3.6 x 10(4) U/ml MulFN-alpha/beta) and proliferation (IC50 = 157 microM As-S; 185 microM As-P and 3.6 x 10(4) U/ml MulFN-alpha/beta). A combined exposure to 175 microM As-S and 800 U/ml of MulFN-alpha/beta resulted in a greater than an additive effect on cell viability and proliferation. The inhibition of cell proliferation/viability by interferon was species specific and was observed only with homologous MulFN-alpha/beta, but not with human interferon-alpha lymphoblastoid or human interferon-beta. Ascorbyl esters inhibited cytosolic GST activity (1-50 = 15.0 microM As-S and 28.5 microM As-P) towards 1-chloro-2,4-dinitrobenzene in a dose dependent manner. The apparent Ki values for affinity purified GST, deduced from Dixon plots were 0.95 microM and 2.0 microM for As-S and As-P, respectively. Significant inhibition of GST was also observed in the cytosol isolated from G-26 cells exposed to 300 microM As-S or 800 U/ml MulFN-alpha/beta.
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PMID:Inhibition of cell proliferation and glutathione S-transferase by ascorbyl esters and interferon in mouse glioma. 841 Jan 36

The National Biotherapy Study Group conducted a phase I/II trial of alpha-interferon (IFN) plus radiation therapy (RT) in glioma patients to confirm the feasibility of combining these two modalities. Patients newly diagnosed gliomasreceived external beam RT as 180 cGy in 33 fractions over six to seven weeks, five days a week, and IFN at a dose of 3 MIU SC Monday, Wednesday and Friday of each week. IFN was increased to 5 MIU after two weeks and was given for up to 16 weeks. Patients were monitored for toxicity and failure-free and overall survival. There were 12 men and seven women with an age range of 24-77, and a median age of 64 years. There were 12 glioblastomas and seven advanced astrocytomas. Complete surgical resection was carried out in two patients, nine had a partial resection, and eight had a biopsy only. Two patients in the latter group deteriorated rapidly and received < 2 weeks of RT/IFN. One patient stopped IFN because of a skin rash, another stopped because of concurrent pneumonia, and one patient was noncompliant. RT and IFN were well-tolerated; 14 of the 19 patients completed the eight weeks of IFN/RT. However, only three patients took IFN for the maximum of 16 weeks. The only grade 4 toxicities noted were increases SGOT in three, increases alk phos in two, and severe fatigue in four patients. The median failure-free survival was two months, median survival was 7.5 months, and four patients survived beyond one year. The longest survivor was 29.1 months, and one patient is still alive after 20.7 months. IFN/RT can be safely co-administered in patients with gliomas. A randomized trial would be needed to establish clinical benefit.
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PMID:Interferon alpha-2a and external beam radiotherapy in the initial management of patients with glioma: a pilot study of the National Biotherapy Study Group. 859 Aug 91

The mortality and morbidity of patients with malignant glioma is not satisfactory, although the survival time is prolonged by several adjuvant therapies. In order to increase the survival time, various studies have been undertaken. In the present article, at first we discuss the effectiveness of the single and/or combined therapy of interferon-beta. Although a synergistic effects with radiation is noted in nitrosoureas and interferon-beta, and it is the most effective treatment for malignant glioma at present, it is still necessary to continue to search for an effective strategy to prolong survival of the patients. To improve the interferon-beta cytokine therapy, we have studied liposome mediated transfection of cytokine genes to control glioma cells. For this purpose, human beta-interferon gene entrapped in liposome was transfected into glioma cells and the growth inhibitory effect was observed. Successful secretion of interferon-beta and remarkable suppression effect to the glioma cells was demonstrated and this effect was enhanced by conjugating with monoclonal antibody G-22 on the surface of liposome. These results suggest that interferon-beta gene transfection by the use of liposome coupled with monoclonal antibody might become a useful technique for gene therapy of malignant glioma.
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PMID:[The effectiveness of interferon-beta against glioma cells and its augmentation of growth inhibitory effect by transfection of its gene]. 865 52

Oligodendrocytes (OLs) and their myelin membranes are the apparent injury targets in the putative human autoimmune disease multiple sclerosis. The basis for this selective injury remains to be defined. OLs in vitro have been shown to be susceptible to both tumor necrosis factor (TNF) and non-TNF-dependent immune effector mechanisms. The former involves initial nuclear injury (apoptosis); the latter, when mediated by activated T cells, involves initial cell membrane injury (lysis). In the current study, we determined whether human adult CNS-derived OLs could be protected from the above immune effector mechanisms by selected neurotrophic factors (CNTF, BDNF, NGF, NT-3, and NT-4/5) or cytokines demonstrated to protect from human or experimental autoimmune demyelinating diseases (beta-interferon [IFN], IL-10, and TGF-beta). Nuclear injury was assessed in terms of DNA fragmentation using a DNA nick-end-labelling technique; cell membrane injury was assessed by lactate dehydrogenase or chromium 51 release. MTT and cell counting assays were used to assess cell viability and cell loss, respectively. Amongst the neurotrophic factors and cytokines tested, only CNTF significantly protected the OLs from TNF-mediated injury. CNTF also protected the OLs from serum deprivation-induced apoptosis. CNTF, however, did not protect the OLs from injury induced by activated CD4+ T cells. CNTF also did not protect human fetal cortical neurons from serum deprivation or TNF-induced DNA fragmentation, nor did it protect the U251 human glioma cell line from DNA fragmentation induced by a combination of TNF and reduced serum concentration in the culture media. Our results indicate that potential protective effects of neurotrophic factors or cytokines on neural cell populations can be selective both for cell type involved and mechanism of immune-mediated injury. CNTF is the protective factor selective for nuclear-directed injury of OLs.
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PMID:Ciliary neurotrophic factor selectively protects human oligodendrocytes from tumor necrosis factor-mediated injury. 871 18

The novel drug lubeluzole, but not its (-)-R-isomer, protects against sensorimotor deficits provoked by photochemical stroke in rats. We studied the mechanism of protection of lubeluzole against glutamate toxicity in primary hippocampal cell cultures. In a model for glutamate antagonism, i.e., treatment of the cultures with compound during the glutamate trigger, lubeluzole was not protective. In contrast, after prolonged pretreatment, i.e., administration of compound to the culture for 7 days before glutamate, lubeluzole was neuroprotective. It had an IC50 of 48 nM and its R-isomer was nine times less active. Under these conditions, lubeluzole inhibited glutamate-stimulated guanosine 3',5'-cyclic monophosphate production (IC50 37 nM). Again the R-isomer was seven times less active. The compounds did not affect nitric oxide synthase activity, guanylate cyclase activity or arginine uptake. After prolonged pretreatment, lubeluzole attenuated citrulline production in the culture, which could not be compensated for by excess arginine. Because prolonged lubeluzole treatment does not inhibit glutamate-activated [Ca+2]i rise in these cultures, the findings may indicate that expression of nitric oxide synthase or levels of its cofactors were reduced. Treatment of C6 glioma cells with lubeluzole did not affect lipopolysaccharide/gamma interferon induced guanosine 3',5'-cyclic monophosphate levels, suggesting that lubeluzole does not inhibit the glial nitric oxide synthase pathway. In conclusion, the long-term neuroprotective property of lubeluzole against glutamate toxicity in hippocampal cultures is reflected by the fact of interference with the glutamateactivated nitric oxide synthase pathway. Prolonged treatment may reduce expression of nitric oxide synthase or levels of its cofactors.
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PMID:Lubeluzole, a novel long-term neuroprotectant, inhibits the glutamate-activated nitric oxide synthase pathway. 893 Jan 81

We have previously reported that immunizations with mutagen-induced immunogenic variants of a weakly immunogenic rat glioma could protect against isografts of the original tumor cells. In this study we show that prolonged survival and cures of rats with established gliomas in their brains can be achieved by therapeutic immunizations with tumor cell mutants, combined with in vitro and in vivo interferon (IFN)-gamma (adjuvant) treatment, or tumor cells admixed with semipurified syngeneic dendritic cells. Cure of rats with established intracerebral gliomas was possible when immunizations were initiated up to 5 days after intracerebral isografting of original tumor cells. Unexpectedly, immunizations combined with in vitro and in vivo IFN-gamma treatment or with admixed semipurified dendritic cells equalized the immunogenic potential of the original tumor cells and that of mutagen-induced immunogenic cell variants (tum-). This demonstrates that effective immunizations against a weakly immunogenic brain tumor can be achieved by different adjuvant concepts. The therapeutic effect of immunizations with tumor cells admixed with semipurified dendritic cells was highly significant in female rats, whereas only occasional cures and prolonged survival were recorded in male rats. The overall results show that therapeutic immunizations can indeed be effective against an established and growing intracerebral tumor.
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PMID:Cure of established, intracerebral rat gliomas induced by therapeutic immunizations with tumor cells and purified APC or adjuvant IFN-gamma treatment. 894 73

We have investigated the anti-tumor activity of ex vivo activated and expanded T cells which had been sensitized in vivo to one of two different syngeneic rat glioma cell lines; D74 or RT-2. Rats were sensitized by inoculation of irradiated tumor cells into each hind foot pad. After 10 days, the tumor-draining lymph node (DLN) from each popliteal region was excised and prepared as a single cell suspension. Tumor-DLN lymphocytes were next activated overnight in RPMI-1640 medium containing 10% fetal bovine serum (FBS), Bryostatin-1 (5 nM), ionomycin (1 microM), and 20 U human recombinant interleukin-2 (IL-2) per ml. Culture for seven days in RPMI-1640 supplemented with FBS and IL-2 resulted in approximately 100-fold expansion of the lymphocyte population. Both D74- and RT-2-sensitized T cells constitutively secreted tumor necrosis factor-alpha, and both lymphocyte populations produced comparable amounts of the cytokine when co-cultured with either glioma cell line. Neither D74- and RT-2-sensitized effectors constitutively secreted gamma-interferon (gamma-IFN), but both populations produced gamma-IFN when exposed to either glioma cell line in vitro. D74-sensitized T cells released significantly more gamma-IFN than the RT-2 DLN lymphocytes. In vitro Chromium-release assays indicated that RT-2-sensitized T cells were more cytotoxic for RT-2 targets than for the D74 line and that D74-sensitized effectors were also more cytotoxic for RT-2 targets. To assess in vivo therapeutic efficacy, rats who had been inoculated intradermally with RT-2 cells three days earlier received an intravenous injection of RT-2- or D74-sensitized DLN cells (10(6) cells/gram body weight) expanded after activation with Bryostatin-1 and ionomycin or an equal number of lymphokine-activated killer (LAK) cells. Tumor diameters were measured daily and revealed that injection of glioma-sensitized lymphocytes led to the elimination of tumor while treatment with LAK cells had no therapeutic benefit. These results indicate, that at least for these two glioma lines, gamma-IFN release, rather than in vitro cytotoxicity, was a better predictor for in vivo immunotherapeutic efficacy of the glioma-sensitized, expanded T cells.
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PMID:Ex vivo expansion of tumor-draining lymph node cells using compounds which activate intracellular signal transduction. II. Cytokine production and in vivo efficacy of glioma-sensitized lymphocytes. 904 60

Between 1988 and 1993, 71 patients with glioblastoma or anaplastic astrocytoma were treated either with accelerated hyperfractionation radiotherapy (1.5 Gy twice daily to a total dose of 69 Gy, n = 35) or with conventional fractionation radiotherapy (1.8 Gy daily to 64.8 Gy, n = 36). Two patients in each group did not complete radiotherapy, leaving 67 evaluable. All patients received the chemotherapeutic regime ACNU intraarterially (50 mg/m2) or intravenously (100 mg/m2) prior to and after radiotherapy. Between 1990 and 1992, 19 patients also received intravenous interferon-beta (3 x 10(6) U, three times weekly) during radiotherapy. The median survival time was 14.5 months for the accelerated hyperfractionation group and 14 months for the conventional fractionation group. The median time to progression was 12 months for the accelerated hyperfractionation group and 9.5 months for the conventional fractionation group. There was no significant difference in either survival (P = 0.89) or progression-free survival (P = 0.25) between the accelerated hyperfractionation and conventional fractionation groups. Interferon therapy was associated with poorer survival. Brain necrosis developed in four out of 10 patients receiving accelerated hyperfractionation radiotherapy plus interferon-beta, but in none of nine patients receiving conventional fractionation radiotherapy plus interferon (P = 0.033). In conclusion, our study failed to demonstrate any possible benefit of accelerated hyperfractionation radiotherapy for malignant glioma. The incidence of brain necrosis may be increased by combining accelerated hyperfractionation radiotherapy and interferon-beta.
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PMID:Comparison of accelerated hyperfractionated radiotherapy and conventional radiotherapy for supratentorial malignant glioma. 907 Mar 38

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