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 significance of finding morphologically intact viable glioma cells in tumors treated with high-dose irradiation delivered by interstitial brachytherapy was examined. Freshly resected tissue was taken from 12 patients after (n = 8) or both before and after (n = 4) interstitial brachytherapy. All posttreatment tissue was taken from regions within a radius of 2.0 to 4.0 cm of the radioactive source. From each sample, monolayer cell culture was established. All untreated samples from primary tumors grew well and became established as cell lines within 1 to 3 weeks. In contrast, cells from treated tumors only formed small colonies of 50 to 100 cells each. These cells grew slowly and, within 14 to 21 days, degenerated. Neither the use of conditioned medium or cell extract from established glioma cell lines nor the application of growth factors (platelet-derived growth factor and/or epidermal growth factor) stimulated growth or lengthened survival. The only exception was tumor resected from approximately 4 cm from the nearest radioactive source and from which a viable cell line could be established (IRR). Cytogenetic analysis of tissue from one sample (IR) before source implantation and from another (IRR) after source implantation, both from the same patient, showed that cells IR and IRR were derived from the same stem cell. To establish the reason why cell IRR remained clonogenic despite high-dose irradiation, IRR cells were irradiated with gamma irradiation with a dose rate of approximately 1 Gy/min for 24 hours. This colony-forming assay showed that IRR cells were radiosensitive.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The significance of morphologically viable glioma cells found at the time of operation after interstitial brachytherapy. 838 Jun 29

Brain tumor cells secrete platelet-derived growth factor (PDGF) and transforming growth factor beta (TGF-beta), and through local production of these growth factors, brain tumor cells may stimulate their own proliferation. Previously we have shown that several different clones of canine glioma cells secrete varying amounts of PDGF and TGF-beta which correlate with in vitro cloning efficiency and in vivo tumorigenicity. In this study, intracellular trafficking of PDGF and TGF-beta was assessed by treatment of each clone with agents preventing vesicular degradation and secretion of growth factors. Clone 2 was more sensitive to these agents (chloroquine and monensin) than clone 5, resulting in retention of intracellular 125I-PDGF and 125I-TGF-beta. Furthermore, exogenous TGF-beta inhibited DNA-synthesis dramatically in clone 2 (compared with clone 5), presumably by interfering with intracellular growth factor receptor availability. This is supported by the fact that exogenous TGF-beta increased the number of its receptors on clone 2 cells, whereas surface receptors decreased on clone 5 cells treated with TGF-beta. These results illustrate the potential for autocrine growth factors to interact with their receptors intracellularly during neoplastic cell proliferation.
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PMID:Intracellular growth factor metabolism in proliferation of a brain tumor cell line. Intracellular growth factors and brain tumor proliferation. 839 69

Cloned neoplastic astrocytes from a human glioma-derived cell line (IPSB-18) were grown in fetal calf serum (FCS)-supplemented culture medium in the presence of three growth factors. Basic fibroblast growth factor (bFGF), epidermal growth factor (EGF) but not platelet-derived growth factor (PDGF) induced an increase in the number of cells positive for the ganglioside-recognizing monoclonal antibody, A2B5. No such growth factor-mediated induction could be detected in cells maintained in plasma-derived serum (PDS)-supplemented medium. Small molecules, removed from PDS during dialysis, may, therefore, act synergistically with growth factors in the control of ganglioside synthesis.
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PMID:Growth factor modulation of surface ganglioside expression in cloned neoplastic glia. 846 69

The incidence of primary brain tumors has increased dramatically among elderly North Americans during the past two decades. Numerous chromosomal abnormalities have been associated with these tumors; various subsets of these abnormalities are specific to certain types of brain tumors. Astrocytic gliomas may exhibit losses of genetic information from chromosomes 9p, 10q, 11p, 13q, 17p, or 22. Mutations of the p53 gene are found mostly in the malignant astrocytic forms and have been linked to malignant tumor transformation and progression. Functional and structural abnormalities of the neurofibromatosis 1 (NF1) gene and overexpression of the epidermal growth factor receptor have been associated with expression of the malignant glioma phenotype. Other less clearly defined abnormalities in astrocytomas include mutations of the retinoblastoma (RB) gene and overexpression of platelet-derived growth factor; transforming growth factor-alpha and -beta; the c-erb B-1, c-myc, ras, c-fos, and ros oncogenes; and insulin-like growth factor I and II. In other glioma tumors, p53 mutations are either infrequent, as in oligodendrogliomas, or absent, as in ependymomas. Occasionally, medulloblastomas exhibit p53 mutations and loss of genetic information from chromosomes 6q and 16q or expression of the c-erb B-2 oncogene. Loss of heterozygosity in chromosome 22 is the most frequent event in meningiomas, suggesting the presence of a tumor-suppressor gene in this chromosome.
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PMID:Epidemiology, cytogenetics, and molecular biology of brain tumors. 849 8

We previously showed that gangliosides inhibit DNA synthesis in Swiss 3T3 cells stimulated with platelet-derived growth factor (PDGF) in a dose-responsive manner. This correlated with the inhibitory effects of several gangliosides (except GM3) on tyrosine phosphorylation of the PDGF receptor (PDGFR). [35S]Methionine-labeled Swiss 3T3 cells were incubated either with or without gangliosides and stimulated with PDGF, and proteins were cross-linked with bis(sulfosuccinimidyl) suberate. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed that two protein bands (170 and 350 kDa) were specifically immunoprecipitated with an anti-PDGFR antibody. Using both Swiss 3T3 and human glioma U-1242MG cells, western blots with anti-PDGFR and anti-phosphotyrosine antibodies confirmed that these bands were the PDGFR monomer and dimer, respectively, and that phosphotyrosine was present in these bands only after cells were stimulated with PDGF. Of the gangliosides tested, GM1, GM2, GD1a, GD1b, GD3, and GT1b, but not GM3, inhibited the formation of the 350-kDa band. These results demonstrate that all gangliosides tested, except GM3, probably inhibit PDGF-mediated growth by preventing dimerization of PDGFR monomers. Loss of more complex gangliosides in human gliomas would permit unregulated activation of the PDGFR, contributing to uncontrolled growth stimulation. We propose that ganglioside inhibition of receptor dimerization is a novel mechanism for regulating and coordinating several trophic factor-mediated cell functions.
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PMID:Gangliosides inhibit platelet-derived growth factor-stimulated receptor dimerization in human glioma U-1242MG and Swiss 3T3 cells. 851 85

Gangliosides are a family of glycolipids that are present at the cell surface of all mammalian cells. Patterns of gangliosides are different in gliomas than normal brain, and exogenously added gangliosides affect the growth of cultured glioma cells. Gangliosides inhibit the activities of several kinases, including protein kinase C (PKC) and cAMP-kinase. U-1242 MG cells (derived from a human malignant glioma) have receptors for platelet-derived growth factor (PDGF) that become phosphorylated on tyrosine when exposed to PDGF. Exposure of these cells to PDGF also causes an increase in intracellular calcium concentration ([Ca2+]i) and induces a translocation of PKC to the membrane. Preincubation of U-1242 MG cells with several species of gangliosides inhibits the increase in ([Ca2+]i) and PKC translocation in response to PDGF, but GM3 is much less effective than other species tested. This is due to a lack of activation of the receptor tyrosine kinase as monitored by phosphorylation of the receptor on tyrosine residues, but is not due to an inhibition of binding of PDGF to its receptors. The lack of activation of the PDGF receptor tyrosine kinase is due to an inhibition of dimerization of the receptor monomers by gangliosides GM1, GM2, GD1a, GT1b, but not GM3. Therefore, gangliosides may be involved in coordinating the activities of multiple trophic factors simultaneously acting on a cell by regulating the dimerization of their respective receptor monomers.
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PMID:Ganglioside modulation of the PDGF receptor. A model for ganglioside functions. 852 78

The effects of specific antibodies against growth factors and receptors on deoxyribonucleic acid (DNA) synthesis in two established human glioma cell lines, A172 and TM-1, were examined. Anti-platelet-derived growth factor (PDGF), anti-basic fibroblast growth factor (bFGF), and anti-epidermal growth factor receptor (EGF-R) antibodies inhibited thymidine incorporation by both cell lines in serum-free medium. Antibody specific to transforming growth factor-alpha only slightly suppressed DNA synthesis by both cell lines. Although the antiproliferative effects of anti-PDGF and anti-bFGF antibodies decreased in serum-supplemented medium, the effect of anti-EGF-R antibody was little changed. The combination of anti-PDGF, anti-bFGF, and anti-EGF-R antibodies significantly inhibited thymidine incorporation by the two cell lines even in serum-supplemented medium. This preliminary study suggests that simultaneous blockade of multiple autocrine loops may provide a new approach to the treatment of human malignant gliomas.
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PMID:Antiproliferative effect of multiple autocrine loop blockade in human malignant glioma cell lines. 853 26

Cancer has been proposed to develop by a process of stepwise accumulation of growth-advantageous genetic alterations which result in the evolution of clones which are outgrowths of such rare cells [1]. This model has recently been extensively tested in human gliomas, the most common primary tumor of the adult central nervous system. Temporal disease progression involves an interplay between growth-suppressing and growth-promoting genes. Specifically for gliomas, genetic studies have indicated loss of germline heterozygosity for chromosome 17p; mutation of the p53 gene; overexpression of the platelet-derived growth factor-alpha receptor; allelic losses of chromosomes 22q, 13q, and 19q; deletion of the interferon-alpha and beta and CDKN2 loci on chromosome 9p; amplification and rearrangement of the epidermal growth factor receptor gene, and monosomy of chromosome 10. The following discussion details these genetic alterations and their consequences for the biology of glioma progression with the ultimate aim of providing new avenues for clinical intervention.
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PMID:Molecular biology of malignant degeneration of astrocytoma. 881 14

We used Northern blot analysis to measure the expression of mRNA for platelet-derived growth factor subunit A (PDGF-A), PDGF-B and the PDGF-alpha receptor (PDGFR-alpha) and PDGF-beta receptor (PDGFR-beta) in ependymomas and medulloblastomas. We analyzed tissue from 5 patients for each tumor type, looking specifically for components of an autocrine or paracrine system in these tumors. PDGF-A was expressed in all tumors, PDGFR-alpha, which binds all 3 PDGF isoforms, was only found in ependymomas. Thus only ependymomas appeared to have a potential for using PDGFR-alpha autocrine loops. PDGF-B was expressed only in ependymomas, although the PDGFR-beta was expressed in both medulloblastomas and ependymomas. Again, therefore, only ependymomas appear to have a potential autocrine loop with PDGFR-beta. These data suggest that ependymomas have the biochemical prerequisites for autocrine and/or paracrine loops using PDGFR-alpha or PDGFR-beta systems. In this they resemble other glial tumors such as anaplastic astrocytomas and glioblastomas. Medulloblastomas do not appear to have the ligand and/or receptor for either the PDGFR-alpha or PDGFR-beta autocrine loop.
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PMID:Expression of platelet-derived growth factor transcripts in medulloblastomas and ependymomas. 884 Oct 77

Glia cell line-derived neurotrophic factor (GDNF), a recently cloned member of the transforming growth factor-beta (TGF-beta) superfamily, has been implicated in the survival, morphological and functional differentiation of midbrain dopaminergic neurons and motoneurons in vitro and in vivo. The factor may thus have utility in the treatment of various human neurodegenerative disorders. Mechanisms regulating expression of GDNF in normal and diseased brain as a possible means to increase the local availability of GDNF are only beginning to be explored. We have established and employed a competitive reverse transcriptase-polymerase chain reaction (RT-PCR) to study and compare levels of expression of GDNF mRNA in several cell types and to investigate its regulation. GDNF expression was clearly evident in primary cultured astrocytes, the glioma B49 and C6 cell, but less pronounced in the Schwannoma RN22 cell lines. Little or no signal could be observed in neuroblastoma cell lines (IMR32, LAN-1) or the pheochromocytoma cell line PC12, emphasizing the glial character of this factor. Using the C6 cell line we found that fibroblast growth factor-2 (FGF-2; bFGF) can increase GDNF mRNA levels, whereas FGF-1, platelet-derived growth factor (PDGF), and vasoactive intestinal polypeptide (VIP) are apparently ineffective. Several other factors (forskolin, kainic acid, triiodothyronine dexamethasone, GDNF, TGF-beta 1, and interleukin-6) appear to have slightly negative effects on GDNF mRNA levels at the concentrations tested. To further explore the relationship between FGF-2 and GDNF, we also addressed the question whether GDNF, like FGF-2, may have an effect on C6 cell proliferation. We conclude that (1) glial and glial tumor cells, rather than neuronal cell lines, express GDNF, (2) that FGF-2 has a prominent inductive effect on GDNF expression and (3) that GDNF stimulates C6 cell proliferation. Finally, these data suggest that neurotrophic actions of FGF-2 in mixed glial-neuronal cell cultures might be mediated in part by GDNF.
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PMID:GDNF mRNA levels are induced by FGF-2 in rat C6 glioblastoma cells. 888 50

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