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)

Five primary and 3 established human glioma cell lines were cultured with ascorbate and examined for expression of extracellular matrix components. All lines except C6 expressed collagen as assessed by silver impregnation, immunofluorescence and lectin staining and expressed laminin and fibronectin. None expressed a lectin marker for endothelial cells. Both epithelial and mesenchymal collagens were expressed. While extracellular components of glioma lines resembled those of fibroblasts more closely than other cell types, subtle differences between gliomas and fibroblasts were present. These included more laminin and collagen type-IV antigenic reactivity and more 11-12 nm diameter extracellular fibrils from individual gliomas, and slight differences in spectra of low-molecular-weight extracellular proteins assessed by gel electrophoresis. One primary and two established glioma lines analysed for DNA content were aneuploid in contrast to diploid fibroblasts. Simultaneous expression of mesenchymal and epithelial markers suggests a dual differentiation potential of glioma cells. Results do not support an endothelial origin for cells cultured from gliomas.
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PMID:Products of cells cultured from gliomas. IV. Extracellular matrix proteins of gliomas. 351 74

Explants derived from human gliomas have been characterized with respect to their cellular outgrowth pattern after 1-22 weeks in culture. A mat of cells which were fibronectin (FN)-positive and glial fibrillary acidic protein (GFAP)-negative (hereafter designated FN+ cells) with a polygonal, flat morphology covered the growth substrate in a swirling pattern for a mean diameter of 9.2 mm around FN+ explants. FN+ cells showed ruffled plasmalemma, dilated rough endoplasmic reticulin (RDR), and extracellular filamentous strands. Rare desmosomes were compatible with at most minor leptomeningeal components or differentiation. FN+ cells predominated in six of seven cultures at passage 2, and their features were the same from various high-grade gliomas and gliosarcoma. Around other explants, elongated or stellate cells which were GFAP+ and FN- grew in a netlike pattern with little cell-to-cell contact. These GFAP+ cells surrounded explants at a mean diameter of 2 mm, substantially less than FN+ cells (P less than 0.005), and they grew more slowly than FN+ cells around explants. GFAP+ cells had an area/perimeter ratio which was less than that of FN+ cells. GFAP+ cells contained abundant intracellular filaments, rare desmosomes, and narrow RER cisternae. In mixed explants, GFAP+ cells often grew on top of FN+ cells. Individual cells which stained for both GFAP and FN were evident only from one glioma (8% doubly positive). Cells negative for both proteins resembled FN+ cells morphologically. Frozen sections of original glioma tissue showed FN+ vessel walls and GFAP+ parenchyma. Results are evidence for very early overgrowth of a preexistent FN+ cell type distinct from the GFAP+ parenchymal cell. The features of this distinct cell type are mesenchymal and resemble the proliferating vascular elements of gliomas in situ. The tendency for GFAP+ cells to grow on top of these FN+ cells suggests a feeder layer interaction. More knowledge of the origins and interactions of these two cell types may increase our understanding of the mechanism of antigenic changes in gliomas and may provide clues to improved therapeutic approaches.
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PMID:Products of cells cultured from gliomas. VI. Immunofluorescent, morphometric, and ultrastructural characterization of two different cell types growing from explants of human gliomas. 355 4

We devised a model system to study the effects of extracellular matrix proteins on the malignant phenotype of an anaplastic glioma cell line, U 343 MG-A. Well-characterized cultures derived from normal human leptomeninges were grown to confluence and maintained for 2 weeks. The leptomeningeal cells were then removed with base and detergent, leaving behind an extracellular matrix enriched in laminin, fibronectin, type I and IV collagen, and procollagen III. U 343 MG-A tumor cells planted on top of this normal extracellular matrix were profoundly growth inhibited compared with glioma cells grown on plastic alone. Glioma cells grown on the extracellular matrix developed multiple, slender processes and assumed a more differentiated astrocytic phenotype; immunostains for glial fibrillary acidic protein revealed a more extensive intracytoplasmic network of intensely staining filaments than in control glioma cells. When glioma cells grown on the extracellular matrix were analyzed by an enzyme-linked immunosorbent assay for glial fibrillary acidic protein, the amount of this intermediate filament per cell was increased 20-fold compared with glioma cells growing on plastic. The growth and differentiation of U 343 MG-A glioma cells in flasks coated with purified fibronectin or laminin was not significantly perturbed; however, glioma cell cultures grown in flasks coated with purified type I or IV collagen showed decreased cellular proliferation, stellate cell formation, and increased levels of glial fibrillary acidic protein per cell compared with glioma cells growing on plastic. Gelatin gel analysis showed that U 343 MG-A glioma cells growing on plastic secreted a 65,000-D metalloproteinase that was not secreted by glioma cells grown on the leptomeningeal extracellular matrix. We conclude that in this system, the extracellular matrix of a normal human leptomeningeal culture substantially inhibited the proliferation of and induced differentiation in an anaplastic glioma cell line. Our analysis of single components of the extracellular matrix suggests that these effects may be mediated in part by type I and IV collagen. The mechanism by which the leptomeningeal extracellular matrix inhibits glioma cell proliferation may be by diminishing tumor-associated protease secretion so that the degradation of extracellular matrix macromolecules in the tumor cell microenvironment is prevented and tumor cell migration becomes less likely.
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PMID:Inhibition of growth and induction of differentiation in a malignant human glioma cell line by normal leptomeningeal extracellular matrix proteins. 355 73

Retinoic acid (RA) inhibited the growth and induced morphological changes in C6 rat glioma cells. The effects of RA on growth rate became apparent after 48 hr and were concentration-dependent and reversible. There was a 60% inhibition of growth using 10(-5) RA, which increased at low serum concentration to over 90% inhibition and was minimized at high concentration of serum. RA did not change the saturation density of the cells. The morphology of C6 cells, was altered from its normal pattern of randomly oriented spindle shaped cells, to cells which aligned to form palisades of fibroblast-like cells. Biochemical analysis of the cells showed no significant change in the activities of several lysosomal hydrolyses or the level of total protein in RA-treated cells compared to control cells. There was, however, a significant decrease in the activity of ornithine decarboxylase early during the treatment with RA, and an increase in the levels of fibronectin secreted into the media by the RA-treated cell. These results suggest that RA can suppress the expression of the transformed phenotype of glioma cells.
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PMID:Effects of retinoic acid on expression of the transformed phenotype in C6 glioma cells. 360 Jan 88

The distribution of type VI collagen was examined immunohistochemically in normal tissues and in 24 human gliomas and six medulloblastomas. Its localization in the neoplasms was compared with that of fibronectin and glioma-mesenchymal extracellular matrix (GMEM) glycoprotein. In normal non-neural tissues type VI collagen was demonstrated in the interstitial connective tissue and in some basement membranes. In normal brain it was localized to the vasculature, leptomeninges, and pial-glial membrane. In neoplasms type VI collagen and fibronectin codistributed in the vasculature and stromal connective tissue. The GMEM glycoprotein, as identified by monoclonal antibody (MAb) 81C6, and a related glioma-mesenchymal matrix antigen identified by MAb 2A6, were expressed not only in the tumor vasculature and connective tissue, but also within the tumor parenchyma in association with glioma cells. The staining intensity was variable in 20 malignant gliomas and weak to absent in two pilocytic astrocytomas and six medulloblastomas. An oligodendroglioma and ependymoma both expressed the 2A6 epitope, but staining with MAb 81C6 was weak to absent. The antigens identified by MAb 81C6 and MAb 2A6 represent the only recognized extracellular matrix components, other than proteoglycans, that are associated with glioma cells in vivo. As prominent constituents of the pericellular matrix, they may be involved in recognized matrix functions such as the modulation of cell adhesion and migration.
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PMID:Distribution of type VI collagen in human gliomas: comparison with fibronectin and glioma-mesenchymal matrix glycoprotein. 365 35

Cell lines derived from 3 different types of human tumor (e.g., squamous carcinomas, melanomas and gliomas) were examined for production of plasminogen activator activity and for attachment and spreading on various extracellular matrix components in the presence or absence of plasminogen. All of the squamous carcinoma and melanoma lines produced high levels of plasminogen activator activity. In contrast, 4 of 6 glioma lines had undetectable activity. Cells from all 3 tumor types attached and spread on fibrinogen-coated or fibrin-coated plastic dishes in the absence of plasminogen. In the presence of exogenous plasminogen, the attachment and spreading of the cells which produced high levels of plasminogen activator activity was inhibited. The plasminogen activator-deficient cells were much less sensitive to exogenous plasminogen. In the presence of plasminogen, attachment and spreading on fibronectin-coated dishes was also partially inhibited. In contrast, plasminogen had no effect on the attachment and spreading of the cells on type-I or -IV collagen, laminin or thrombospondin. Previous studies have shown that tumor-cell adhesion to the extracellular matrix depends on the synthesis of receptors for extracellular matrix components or on the synthesis of extracellular matrix components themselves. The present study shows that, in addition, the production of enzymes which are capable of degrading these components also influences tumor-cell adhesion to extracellular matrix moieties.
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PMID:Plasminogen activator production by human tumor cells: effect on tumor cell-extracellular matrix interactions. 369 23

Efforts to determine the factors responsible for reversing malignancy in the central nervous system may not only increase our understanding of the growth of primary human brain tumors, but may eventually prove to be of therapeutic benefit as well. We therefore devised a model system to study the effects of extracellular matrix (ECM) proteins on the malignant phenotype of an anaplastic glioma line, U-343 MG-A. Well-characterized cultures derived from normal human leptomeninges were grown to confluence and maintained for 2 weeks. The pia-arachnoid cells were then removed with detergent and base, leaving behind an ECM enriched in laminin, fibronectin, types I and IV collagen, and procollagen III. U-343 MG-A tumor cells planted on top of this normal ECM were profoundly growth inhibited, developed multiple slender cytoplasmic processes similar to those of normal astrocytes, and expressed more GFAP per cell than did tumor cells growing on plastic alone. The growth of U-343 MG-A tumor cells in flasks coated with purified fibronectin or laminin was not significantly inhibited. However, U-343 MG-A cultures grown in flasks coated with type I or IV collagen showed decreased cellular proliferation and altered cell morphology. Conditioned medium from U-343 MG-A tumor cells growing on plastic alone contained a 64 kD activated metalloprotease. U-343 MG-A tumor cells growing on the pia-arachnoid ECM do not demonstrate such proteolytic activity. We conclude that the tumor cell microenvironment is extremely important in modulating the growth and differentiation of an anaplastic glioma cell line.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The K.G. McKenzie award lecture--1986. Effects of extracellular matrix proteins on the growth and differentiation of an anaplastic glioma cell line. 377 29

Methods are described to study cell surface and cytoplasmic antigens of cultured human glioma, fetal brain cells and fibroblasts using flow cytometry. This required harvesting the cultured cells with Versene or mild trypsin treatment and fixation in 4% paraformaldehyde prior to staining for glial fibrillary acidic protein (GFAP) and fibronectin using indirect immunofluorescence. At passage 10, 38% of fetal brain cells [CHII] were GFAP-positive but at passage 14 only 3.5% expressed GFAP. Two glioblastomas and an anaplastic astrocytoma had 38.8%, 6.7% and 81.3% GFAP-positive cells, respectively. Of the 10(4) cells studied, 91.6%, 79.1% and 40.8% were fibronectin-positive for glioblastoma multiforme [12-18], oligodendroglioma [12-10] and fetal brain [CHII] cells, respectively. Two fibroblast lines had 33.5% and 43.1% of the cells expressing fibronectin. The validity of these results was confirmed by staining for GFAP and fibronectin using peroxidase-antiperoxidase and immunofluorescence microscopy. Using low angle forward light scatter to estimate cell size and gating techniques it was found that GFAP-positive CHII and anaplastic astrocytoma cells were generally larger than GFAP-negative cells of the same type. No correlation between cell size and fibronectin expression was found for glioblastoma [12-18] cells. These results demonstrate the validity of the described methods and illustrate some specific applications and the potential value of flow cytometry to neurooncology.
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PMID:Application of flow cytometry to analyses of cultured human glioma and fetal brain cells. 388 48

The possibility of fibronectin production by C6 glioma cells was examined with assays which require protein synthesis. Proteins produced by C6 cells using radiolabeled amino acid precursors were tested for affinity to collagen by binding to immobilized gelatin. The predominant collagen binding protein made by C6 coelectrophoresed with fibronectin synthesized by control fibroblasts and with the larger of the two proteins in unlabeled fibronectin when applied to polyacrylamide gels with sodium dodecyl sulfate (SDS). In addition, C6 produced a larger collagen binding protein of approximately 270,000 molecular weight. Solubilities in urea solutions of the collagen-binding proteins made by C6 cells and fibroblasts were similar. Immunofluorescence showed fibronectin associated with the C6 cell monolayer, but less abundant than the fibronectin associated with fibroblasts. Results provide evidence for the production of fibronectin by the C6 glioma cell line.
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PMID:Products of cultured neuroglial cells: II. The production of fibronectin by C6 glioma cells. 389 49

The distribution of type I, III, IV and V collagen in 35 gliomas and 20 meningiomas was studied by indirect immunofluorescence staining. In addition, the presence of fibronectin (FN) and laminin (LN) is also reported. In gliomas expression of type IV collagen and LN was found in the vessel walls and associated with the endothelial glomerulus-like proliferations. FN and type V collagens were located in proliferating vessel walls in a pattern corresponding both to the basement membrane and the perivascular matrix around the vessels. In the extracellular matrix of grade III and IV gliomas occasional faint intercellular fluorescence was also observed with both FN and type V collagen. Type I and III collagens were localised in the vessel walls and in the perivascular connective sheet. Glioma cells did not express any of the antigens investigated. In meningiomas, type IV and V collagens, LN and FN were found in vessel walls, whorls formations and psammoma bodies. These stainings support the hypothesis of a vascular origin of these psammoma bodies which were only found in syncytial and transitional meningiomas. Both type I and III collagens were detected in the perivascular connective tissue. In general, meningioma cells and extracellular matrix did not express any of these molecules, except in transitional meningiomas where occasional fluorescence was observed in extracellular matrix with type V collagen and FN.
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PMID:Immunohistochemical localisation of macromolecules of the basement membrane and extracellular matrix of human gliomas and meningiomas. 389 18

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