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)

The aim of this study was to evaluate whether interferon [IFN] can affect intracerebrally grown glioma and how alteration of the blood-brain barrier [BBB] may influence this effect. An intracerebrally implanted glioma G-26 (G-26) mouse brain-tumor model was developed and used in these studies. Histological characterization of this intracerebrally grown tumor revealed its anaplastic character. The astrocytic origin of G-26 was evidenced by glial fibrillary acidic protein staining and electron microscopic visualization of glial filaments. A study of tumor progression and animal survival showed development of a well defined tumor nodule within approximately seven days after the implantation. The median animal survival time was 27 +/- 3.8 days. The integrity of the blood-brain barrier [BBB] within the tumor was evaluated by the intravenous injection of horseradish peroxidase at days 3, 7, 10 and 20 after brain tumor implant and compared to 'sham' controls. The tumor-induced BBB alteration was progressive from day 3 to day 20. Glioma-26 subcutaneously passed in C57BL/6 mice was also continuously cultured in vitro. Its proliferation was inhibited by homologous mouse interferon alpha/beta [MuIFN alpha/beta] but not by human interferon alpha lymphoblastoid or human interferon beta. The in vivo studies of G-26 glioma treatment with MuIFN alpha/beta were performed using single bolus of IFN in osmotically altered animals or slow IFN infusion through osmotic micro-pumps. The slow infusion of IFN had no effect on animal survival. However, a statistically significant increase in animal survival was observed after single bolus IFN treatment following osmotic BBB alteration.
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PMID:Evaluation of blood-brain barrier permeability and the effect of interferon in mouse glioma model. 128 Dec 26

A new approach to the treatment of malignant glioma is cytokine gene therapy to produce growth inhibitors in cells. Previously, we showed that human glioma cells selectively transfected with the gene of interferon (IFN)-beta and/or IFN-gamma by our novel liposomes tagged with monoclonal antibody against a glioma-associated antigen achieved a remarkable growth inhibition effect. In the present experiment, we demonstrated the effectiveness of gene therapy against glioma cells using liposomes bearing a plasmid containing the gene for tumor necrosis factor (TNF)-alpha. We also found that the effect of endogenous TNF-alpha was enhanced by treatment of IFN-gamma prior to the transfection with the TNF-alpha gene.
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PMID:Growth inhibition of glioma cells by liposome-mediated cell transfection with tumor necrosis factor-alpha gene--its enhancement by prior gamma-interferon treatment. 128 76

The cytotoxicity of human beta-interferon (HuIFN-beta) produced in human glioma cells was examined by use of our liposomes entrapping two plasmids, pSV2neo and pSVMTV-IFN-beta. After the cells had been transfected with these genes by means of the liposomes, neomycin-resistant cells were selected. When the selected cells were subjected to a single exposure to dexamethasone, all of the cells were found to produce HuIFN-beta and were eliminated by 8 days. Accordingly, the effect of HuIFN-beta produced in human glioma cells is considered to be cytocidal.
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PMID:Cytotoxicity of human beta-interferon produced in human glioma cells transfected with its gene by means of liposomes. 129 Apr 60

The anti-proliferative activity of human interferon (HuIFN) was enhanced by dipyridamole, 2,6-bis-(diethanolamino)-4,8-dipiperidinopyrimido-[5,4-d]-py rimidine, when tested against various human tumor cell lines, including KT (breast carcinoma), PLC/PRF/5 (hepatoma), MGC-I, U251-SP and T98 (glioma), HAC-2 and SHIN-3 (ovarian carcinoma), and MM-ICB (melanoma). The enhancement occurred irrespective of the kind of HuIFN used (alpha, beta or gamma) and the original degree of susceptibility of the cells to HuIFN. Even low doses down to 0.01 microM of dipyridamole that had no intrinsic anti-proliferative activity could enhance the effect of HuIFN. The enhancement of HuIFN effects seems not to be caused by induction of HuIFN production, because neither anti-viral activity nor HuIFN antigens were detected in culture medium in cells treated with dipyridamole. Mopidamole, a derivative of dipyridamole lacking one piperidine residue, produced little enhancement of the effects of HuIFN. Among ovarian cancer cell lines tested, the enhancement of the activity of HuIFN by dipyridamole for HAC-2 and SHIN-3 cells was equivalent to or greater than that for 3 chemotherapy agents (adriamycin, vincristine, and a camptothecin derivative). However, neither HOC-21 ovarian cancer cells nor HEC-1 endometrial adenocarcinoma cells were susceptible to any combinations. When MGC-1, U251-SP, and HAC-2 cells were injected into nude mice, the growth of tumors was more markedly inhibited by the subcutaneous administration of HuIFN in combination with oral administration of dipyridamole than by the HuIFN alone. Thus, this combination therapy seems to be worth trying for human cancer, although the enhancement of the effects of HuIFN by dipyridamole varied among the cell lines examined.
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PMID:Dipyridamole enhances an anti-proliferative effect of interferon in various types of human tumor cells. 137 1

Cholesterol in animals is a major structural component of cell membranes. It may therefore play a functional role in the modulation of cell osmolarity, the process of pinocytosis and the activities of membrane-associated proteins such as ionic pumps, immune responses, etc. A major relationship exists between the cell-growth processes and the cholesterol biosynthetic pathway. The cholesterol needed for new membranes may be derived either from endogenous synthesis or from exogenous sources, principally plasma low-density-lipoproteins (LDL) which enter the cells by receptor-mediated endocytosis. Both these pathways are enhanced in rapidly growing cells. Conversely, if synthesis is inhibited and no exogenous cholesterol is available, cell growth is blocked. The 3-hydroxy-3-methylglutaryl CoA (HMGCoA) reductase (the rate-limiting reaction in cholesterol biosynthesis) is the enzyme which catalyzes the conversion of HMGCoA to mevalonic acid. It has been suggested that mevalonate may play an important role in cell proliferation. All cells need at least two products synthesized from mevalonate in order to proliferate, and the only one yet identified is cholesterol. Other melavonate-derived potential candidates as cell-cycle and cell-survival products include the dolichols ubiquinone side chains, isopentenyladenosine derivatives, etc. Furthermore, it has recently been shown that membrane association appears to be an important function in mevalonate-derive modifications of several important proteins such as cellular membrane G proteins, those coded for by oncogenes (ras proteins) and lamins (nuclear proteins). In recent years the development of cholesterol-synthesis-inhibiting drugs, for lowering plasma cholesterol levels has mainly been centred on the control of HMGCoA reductase activity (vastatins). However, because mevalonic acid is the precursor of numerous metabolites, any reduction of such activity may potentiate pleiotropic effects. Vastatins are now, therefore, receiving increased attention as potential pharmacological tools for the control of abnormal cell growth in pathological situations, i.e. tumours and vascular smooth muscle cell proliferation under atherogenic conditions. In our laboratories, we have demonstrated that simvastatin can prevent arterial myocyte proliferation both in vivo and in vitro. Simvastatin can also inhibit in vitro the rate of human glioma cell growth, since it shows a strong synergistic inhibitory effect on cell proliferation when used in association with anticancer agents such as Carmustine or beta-interferon. Both simvastatin-induced cell growth inhibition and the synergy observed with these drugs can be completely reversed by incubating cells with mevalonate. This shows that the effect of simvastatin of cell proliferation is due to its specific inhibitory activity on intracellular mevalonate synthesis.
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PMID:Cholesterol and mevalonic acid modulation in cell metabolism and multiplication. 147 Nov 62

Human malignant gliomas (glioblastomas and anaplastic astrocytomas) are the most frequent brain tumors and are associated with a variety of genetic alterations including retinoblastoma (RB) and p53 gene mutations, loss of interferon alpha and beta (IFNA, IFNB) genes and lack of O6-methylguanine-DNA methyltransferase (MGMT) expression. Yet, in the studies performed to date, the relationship between these alterations has not been addressed. In this report, we have studied gene expression in 29 malignant glioma cell lines and have determined that, although loss of the interferon genes and loss of RB, p53 and MGMT mRNAs are frequent events, combinations of genetic alterations involving these four proven or putative tumor-suppressor genes are relatively infrequent. The exception was loss of RB mRNA, which may be associated with lack of MGMT mRNA.
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PMID:Lack of expression of tumor-suppressor genes in human malignant glioma cell lines. 150 94

Malignant gliomas are characteristically surrounded by marked gliosis. To assess whether glioma-derived products contribute to the proliferation of astrocytes, a feature of the gliosis response, we evaluated the influence of culture supernatants from malignant human glioma lines and tumor cyst fluids collected from two patients with glioblastoma multiforme on the proliferation of non-transformed adult human astrocytes. Both the culture supernatants and cyst fluids significantly increased DNA synthesis in astrocytes as assessed by a double immunofluorescence glial fibrillary acidic protein-bromodeoxyuridine technique. The net proliferative effect mediated by glioma cell line supernatants was tumor growth phase-dependent, being preferentially expressed during the logarithmic phase of glioma cell growth. Specific growth factor molecules and cytokines known to be secreted by gliomas (epidermal growth factor, fibroblast growth factor, platelet-derived growth factor, transforming growth factor-beta, interleukin-6, and tumor necrosis factor-alpha) could not reproduce the mitogenic effects of the glioma-derived soluble factors. Cytokines which can induce DNA synthesis by adult human astrocytes in vitro, gamma-interferon and interleukin-1, were not detected in the culture supernatant of glioma lines used in this study. In conjunction with the documented effects of glioma products on endothelial and lymphoid cells, the current study suggests that soluble glioma products can contribute to the production of surrounding gliosis observed in vivo.
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PMID:Malignant glioma-derived soluble factors regulate proliferation of normal adult human astrocytes. 151 71

Previous studies have suggested that structural abnormalities involving the short arm of chromosome 9 are frequently associated with gliomas. The alpha-, beta-, and omega-interferon (IFNA, IFNB1, and IFNW, respectively) and the methylthioadenosine phosphorylase (MTAP) genes have been mapped to the short arm of chromosome 9, band p22. Homozygous deletions of these genes have been reported in many leukemia- and glioma-derived cell lines. In this report, we present a detailed analysis of partial and complete homozygous or hemizygous deletions of DNA sequences on 9p in human cell lines and primary tumor samples of glioma patients. Ten of 15 (67%) glioma-derived cell lines had hemizygous or homozygous deletion of IFN genes or rearrangement of sequences around these genes, while 13 of 35 (37%) primary glioma tumor samples had hemizygous (8 tumors) or homozygous (5 tumors) deletion of the IFN genes. The shortest region of overlap of these deletions maps in the interval between the centromeric end of the IFN gene cluster and the MTAP gene. In the cell lines and primary tumors examined, these gross genomic alterations were seen only in association with high grade or recurrent gliomas. Our observations confirm that loss of DNA sequences on 9p, particularly the IFN genes, occurs at a significant frequency in gliomas, and may represent an important step in the progression of these tumors. These results are consistent with a model of tumorigenesis in which the development or progression of cancer involves the loss or inactivation of a gene or several genes that normally act to suppress tumorigenesis. One such gene may be located on 9p; this gene may be closely linked to the IFN genes. Nevertheless, loss of the IFN genes, when it occurs, may play an additional role in the progression of these tumors.
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PMID:Molecular analysis of deletions of the short arm of chromosome 9 in human gliomas. 156 21

In order to establish new interferon therapy against malignant glioma by selective transfection of its gene, we developed a novel transfection system using liposomes bearing positive charges on their surface and entrapping plasmids containing the HuIFN- beta gene (pSV2IFN-beta). The liposomes were composed of N-(alpha -trimethylammonioacetyl) -didodecyl-D-glutamate chloride (TMAG), dilauroylphosphatidylcholine (DLPC), and dioleoylphosphatidylethanolamine (DOPE) as a molar ratio of 1:2:3. The liposomes were not observed to have cytotoxicity for human glioma cells, when applied at a rate less than 15nmol/ml. This liposome-mediated transfection of the gene into the cultured glioma cells (U-251-MG) resulted in the secretion of HuIFN- beta into the medium. The HuIFN- beta level in the culture media of glioma cells reached 23 IU/ml after 96h of incubation. When the pSV2IFN-beta containing liposomes were coupled with a monoclonal antibody (G-22 MCA) against glioma-associated antigen (G-22), the level of HuIFN-beta in the medium was 181 IU/ml, resulting in a 7-fold increase. It was indicated that this transfection system was a safe and selective method in the case of TMAG/DLPC/DOPE liposomes.
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PMID:[Basic research for interferon gene therapy against malignant glioma]. 159 30

The effect of simvastatin, an inhibitor of 3-hydroxy-3-methylglutaryl coenzyme A reductase, on human glioma cell growth was investigated. When incubated with simvastatin, cell proliferation decreased in a concentration-dependent fashion, as measured by cell number and [3H]-thymidine incorporation into DNA (concentration producing 50% inhibition, 60 nM). The effect was detectable 12 h after cells were exposed to the drug and persisted for 2 days. Addition of mevalonate to cells exposed effect of simvastatin in combination with beta-interferon and N,N'-bis(2-chloroethyl)-N-nitrosourea, both antitumoral drugs, was also evaluated by cell growth inhibition assay. The concentration producing 50% inhibition for each of these drugs was 650 units/ml and 50 nM, respectively. Subliminal concentrations of beta-interferon or N,N'-bis(2-chloroethyl)-N-nitrosourea were incubated together with 1 nM simvastatin. The data were analyzed with the aid of an isobologram using the concept of an envelope of additivity. Simultaneous cell exposure to simvastatin with either N,N'-bis(2-chloroethyl)-N-nitrosourea or beta-interferon produced a strong synergistic inhibitory effect on cell proliferation. These data provide in vitro support for the possibility that 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitors, utilized as plasma cholesterol-lowering agents, could potentiate the effect of antiblastic drugs on tumor growth.
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PMID:Simvastatin, an inhibitor of cholesterol biosynthesis, shows a synergistic effect with N,N'-bis(2-chloroethyl)-N-nitrosourea and beta-interferon on human glioma cells. 164 32

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