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

We have shown that glucocorticoids reversibly change the growth control of rat C6 glioma cells from a transformed to a normal pattern. Here we report that the glucocorticoid hormone hydrocortisone (Hy) modulates structure and function of cell surface and cytoskeleton. The hormone is shown to cause: (a) increased flattening and adhesion to solid substrates and to fibrin layers, (b) inhibition of the cell shape change triggered by catecholamines and cAMP, (c) extensive fibronectin deposition on normally fibronectinless cells' surface, and (d) microtubule rearrangement. Comparison of Hy-hypersensitive and Hy-resistant variants showed that microtubule rearrangements correlate with the growth control change induced by Hy, whereas fibronectin deposition does not.
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PMID:Glucocorticoid hormone modulation of both cell surface and cytoskeleton related to growth control of rat glioma cells. 668 23

Neurite outgrowth of C 1300 neuroblastoma cells, which were dispersed from adherent cultures or grown in suspension, was studied on different protein-coated surfaces. Of 29 different surface structures studied, including surfaces treated with various fibronectins, lectins, glycosidases, or glycosyltransferases capable of stimulating fibroblast spreading, only the surfaces coated with plasma fibronectin or with a protein mixture secreted by C6 glioma cells displayed an extensive activity in the sprouting assay. Neurite outgrowth was inhibited by brain gangliosides and by colominic acid (a sialic acid polymer). A 50% inhibition of neurite outgrowth of N18 neuroblasts induced by the glioma cell proteins was observed at the following approximate concentration: 100 microM (0.2 mg/ml) GD1A ganglioside, 20 microM (0.04 mg/ml) GT1B ganglioside, and 5 mg/ml colominic acid. Specificity of inhibition was suggested by the finding that a few polyanionic substances tested were not inhibitory in the sprouting assay, and that the type of gangliosides inhibiting sprouting were found to be major sialoglycolipids of the neuroblasts. A hypothesis is discussed, according to which neurite outgrowth of neuroblasts is stimulated by adhesion involving interactions of the adhesion-mediating protein with cell surface carbohydrates characteristic of brain gangliosides.
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PMID:Neurite outgrowth of neuroblastoma cells: dependence on adhesion surface--cell surface interactions. 669 78

A human malignant glioma cell line, LN-18, has been established in monolayer culture and subcultured for more than 115 passages. LN-18 cells grow in vitro as bipolar or stellate cells with pleomorphic nuclei, have a doubling time of about 72 h and a plating efficiency of 3%. The glial nature of these cells has been assessed by ultrastructural examination. The synthesis of glial fibrillary acidic and S-100 proteins could not be demonstrated, although the initial biopsy tissue and the early cultures were positive for the former. The presence of Ia-like antigens on the surface of these cells was demonstrated using allo and xeno antisera. LN-18 cells were also shown to synthesize large quantities of fibronectin. The injection of LN-18 cells into nude mice induced the formation of solid tumor masses that could be retransplanted every 3 weeks and showed a morphology comparable to that of the initial biopsy. Karyotype analysis revealed the presence of three marker chromosomes, constantly present before and after hetero-transplantation.
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PMID:Characterization of an established human malignant glioma cell line: LN-18. 721 Nov 94

c-myc is overexpressed in glioblastoma multiforme, the most common form of brain tumor. To find a suitable target for in vivo antisense therapy of gliomas, we investigated the biological effects on the human glioma cell line, U87MG, of antisense oligonucleotides targeted against the translation start site of c-myc mRNA. Parameters examined included c-myc protein level, cell proliferation, and cell adhesion to substratum. Oligonucleotides were administered by electroporation as capped phosphorothioates. Antisense oligomers caused a reduction in c-myc protein expression, loss of cell adhesion to plastic, and complete growth inhibition. Various control sequences, including sense, scrambled, and three-base mismatched oligomers, were also tested. Some of the controls retained a dG quartet found in the antisense sequence. Reduction in c-myc protein and cell growth and loss of cell adhesion were specific to the antisense sequence. Surprisingly, fully thioated antisense and scrambled sequences, either containing or lacking a dG quartet, were equally inhibitory to both cell growth and adhesion. Loss of cell adhesion was observed with only phosphorothioate-containing oligomers, not with either their phosphodiester or nuclease-resistant PA congeners, and was completely reversed when cells were plated onto fibronectin. These results demonstrate that a commonly used c-myc antisense oligomer also displays dramatic, sequence- but not antisense-specific effects on cell proliferation and cellular adhesion, depending on the backbone.
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PMID:Contribution of sequence and phosphorothioate content to inhibition of cell growth and adhesion caused by c-myc antisense oligomers. 747 2

A better understanding of the influences of specific extracellular substrates, including proteins, glycosaminoglycans, and parenchymal cells, on the invasive behavior of glioma cells would potentially lead to novel forms of treatment aimed at confining the tumor. A monolayer, microliter scale assay was used to investigate how different substrates influenced glioma migration. Basal or unspecific movement (range, 10-260 microns/d) was determined by observing a panel of seven established human glioma cell lines. Migration rates two to five times higher than this basal activity were referred to as preferential and specific glioma migration; these rates generally occurred on merosin and tenascin. Collagen, fibronectin, or vitronectin were less supportive of migration. The glioma cells migrated on hyaluronic acid, but they did not migrate to the extent generally found on the extracellular matrix proteins. Glioma-derived extracellular matrix also served to promote cell migration. This finding implicates a role for either glioma remodeling or synthesis of a permissive environment for local dissemination that may be independent of the constitutive matrix proteins normally found in the brain. Although the glioma cells were able to migrate over monolayers of other glioma cells, they were unable to migrate over astrocytes and fibroblasts. Our findings indicate that the invasive behavior of glioma cells in situ is most likely a consequence of the interplay between the cells' manipulation of the environment and the constitutive ligands associated with specific regions or structures of the brain.
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PMID:Substrates for astrocytoma invasion. 747 82

We have studied interactions of tenascin with two chondroitin sulfate proteoglycans, neurocan and phosphacan. Neurocan is a multi-domain proteoglycan with a 136-kDa core protein that is synthesized by neurons and binds to hyaluronic acid, whereas the 173-kDa core protein of phosphacan, which is synthesized by glia, represents an extracellular variant of the receptor-type protein tyrosine phosphatase RPTP zeta/beta. Keratan sulfate-containing glycoforms of phosphacan (designated phosphacan-KS) are also present in brain. Immunocytochemical studies of early postnatal rat cerebellum demonstrated that the localization of neurocan, phosphacan, and phosphacan-KS all overlap extensively with that of tenascin, an extracellular matrix protein that modulates cell adhesion and migration. Binding studies using purified proteins covalently attached to fluorescent microbeads demonstrated that proteoglycan-coated beads co-aggregated with differently fluorescing beads coated with tenascin. The co-aggregation was specifically inhibited by Fab' fragments of antibodies against tenascin or the proteoglycans and by soluble neurocan, phosphacan, and tenascin. A solid phase radioligand binding assay confirmed that neurocan, phosphacan, and phosphacan-KS bind to tenascin but not to laminin and fibronectin. Chondroitinase treatment of the proteoglycans or addition of free chondroitin sulfate had no significant effect, indicating that the binding activity is mediated largely via the core glycoproteins. Scatchard analysis demonstrated high affinity binding of 125I-phosphacan, phosphacan-KS, and neurocan to a single site in tenascin, and neurocan and various glycoforms of phosphacan all inhibited binding of 125I-phosphacan to tenascin. In studies of cell adhesion to proteins adsorbed to Petri dishes, phosphacan inhibited adhesion of C6 glioma cells to tenascin whereas neurocan had no effect. Our results suggest that tenascin binds phosphacan and neurocan in vivo and that interactions between chondroitin sulfate proteoglycans and tenascin may play important roles in nervous tissue histogenesis, possibly by modulating signal transduction across the plasma membrane.
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PMID:Interactions with tenascin and differential effects on cell adhesion of neurocan and phosphacan, two major chondroitin sulfate proteoglycans of nervous tissue. 751 60

Human gliomas are characterized by their invasion of normal brain structures irrespective of their grade of malignancy. Factors involved in the control of this invasive behavior are poorly documented. Human gliomas have also been found to express CD44 adhesion molecules. Expression of splice variants of CD44 has been correlated to metastasis in nonglial solid tumors. In this study, 8-microns porosity polycarbonate filters incorporated in modified Boyden chambers and coated with the extracellular matrix composite Matrigel were used to investigate the role of CD44 in invasion of eight human glioma cell lines in vitro. Invasion of Matrigel was found to be inhibited to different extents by a CD44 monoclonal antibody. Moreover, this invasion was highly inhibited in two cell lines and completely arrested in five other glioma cell lines by a CD44-specific antisense oligonucleotide which inhibited CD44 expression. In addition, adhesion of glioma cells to fibronectin, laminin, vitronectin, and collagen I was inhibited by the CD44 monoclonal antibody. These results strongly suggest that CD44 is involved in human glioma cell invasion in vitro, probably through its role in cell interactions with extracellular matrix proteins. Interference with glioma invasion, by targeting CD44 expression, may be envisaged in animal models.
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PMID:CD44 mediates human glioma cell adhesion and invasion in vitro. 751 47

Phosphacan is a chondroitin sulfate proteoglycan produced by glial cells in the central nervous system, and represents the extracellular domain of a receptor-type protein tyrosine phosphatase (RPTP zeta/beta). We previously demonstrated that soluble phosphacan inhibited the aggregation of microbeads coated with N-CAM or Ng-CAM, and have now found that soluble 125I-phosphacan bound reversibly to these neural cell adhesion molecules, but not to a number of other cell surface and extracellular matrix proteins. The binding was saturable, and Scatchard plots indicated a single high affinity binding site with a Kd of approximately 0.1 nM. Binding was reduced by approximately 15% after chondroitinase treatment, and free chondroitin sulfate was only moderately inhibitory, indicating that the phosphacan core glycoprotein accounts for most of the binding activity. Immunocytochemical studies of embryonic rat spinal phosphacan, Ng-CAM, and N-CAM have overlapping distributions. When dissociated neurons were incubated on dishes coated with combinations of phosphacan and Ng-CAM, neuronal adhesion and neurite growth were inhibited. 125I-phosphacan bound to neurons, and the binding was inhibited by antibodies against Ng-CAM and N-CAM, suggesting that these CAMs are major receptors for phosphacan on neurons. C6 glioma cells, which express phosphacan, adhered to dishes coated with Ng-CAM, and low concentrations of phosphacan inhibited adhesion to Ng-CAM but not to laminin and fibronectin. Our studies suggest that by binding to neural cell adhesion molecules, and possibly also by competing for ligands of the transmembrane phosphatase, phosphacan may play a major role in modulating neuronal and glial adhesion, neurite growth, and signal transduction during the development of the central nervous system.
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PMID:Interactions of the chondroitin sulfate proteoglycan phosphacan, the extracellular domain of a receptor-type protein tyrosine phosphatase, with neurons, glia, and neural cell adhesion molecules. 752 21

Glioma invasion is a complex process involving interactions of tumour cells with host cells and extracellular matrix (ECM). The initial event in the process is recognition and attachment of glioma cells to specific ECM molecules prior to migration into proteolytically modified matrix. In comparison with other tissues, brain ECM is a relatively amorphous matrix which contains glycosaminoglycans including hyaluronan (HA). Recently CD44 which is a transmembrane adhesion molecule found on a wide variety of cells, has been suggested as the principal cell surface receptor for HA. In the present in vitro investigation we have analysed the role of CD44 in adhesive interactions between human gliomas and ECM. Our experimental procedures included immunocytochemistry, immunoblotting, in vitro adhesion assay and flow cytometry. CD44 was expressed on the surface of all gliomas analysed (9) and the level of expression showed no correlation with tumour grade. Eighty, 95 and 120 kDa isoforms were demonstrated by immunoblotting. In an adhesion blocking assay it was found that ligation of CD44 with specific antibody resulted in reduced adhesion to hyaluronan, chondroitin sulphate, fibronectin, laminin, collagen IV and Matrigel. We conclude that CD44 is involved in adhesion of glioma cells to a wide range of ECM components.
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PMID:CD44 plays a role in adhesive interactions between glioma cells and extracellular matrix components. 752 1

Utilizing a human astrocyte-derived glioma cell line, we have demonstrated the presence of a vitronectin receptor, alpha v beta 3, and a fibronectin receptor, alpha 5 beta 1, on the surface of the cells spreading on the respective adhesion molecules by immunohistochemical analyses. By phase-contrast microscopy, these receptors were found to be expressed predominantly in the focal contact-like area, suggesting that they were involved in the spreading of the cells upon contact with these adhesion molecules. Interestingly, they appeared to have differential functions and roles as integrins as evidenced by different time-dependent distribution profiles on the cell surface in the serum-containing medium. Furthermore, both vitronectin and fibronectin seem to have chemotactic effects onto the glioma cells as observed in a Boyden chamber study. Although these receptors are not expected to be present on the surface of astrocytes under physiological conditions, they may be expressed thereon and involved in gliosis when the cerebral vasculature is traumatized and, thereby, blood proteins, including vitronectin and fibronectin, come into contact with the astrocytes.
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PMID:Localization of vitronectin- and fibronectin-receptors on cultured human glioma cells. 752 46


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