Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Intrinsic tumours of the central nervous system (CNS) are generally derived from the glial cells: the astrocytes, oligodendrocytes and ependymal cells. Although such tumours rarely metastasize to distant organs, they show a marked propensity for local invasion of the surrounding nervous tissue. Sub-populations of neoplastic glia may migrate several millimetres away from main tumour mass into the contiguous CNS parenchyma, resulting in poor demarcation of the tumour. These migratory, so-called "guerrilla" cells give rise to recurrent tumours following surgical debulking and adjuvant radio- and chemo-therapeutic intervention. As in other organs, tumour cell invasion is, in part, facilitated by interaction with the extracellular matrix (ECM); however, apart from the vascular basal lamina and the glia limitans externa, the CNS lacks a well-defined ECM. Invading neoplastic cells must, therefore, provide their own ECM, a process which may be stimulated by such agents as gangliosides or growth factors. Glioma cell-derived laminin and hyaluronic acid may provide the most important substrates for invasion, cell adhesion to these substrates being achieved largely through integrin receptors (the function of which may be determined by interaction with cell surface gangliosides) and CD44, respectively. Modulation of these ECM components is facilitated by a variety of proteinases including the matrix metalloproteinases and hyaluronidase, the activity of which is also thought to stimulate angiogenesis. Interference with the mechanisms which promote glioma cell adhesive properties may provide suitable targets for novel anti-invasive therapies. These might include ECM components, growth factors, gangliosides, integrin receptors and proteases and their inhibitors.
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PMID:The role of the extracellular matrix in neoplastic glial invasion of the nervous system. 918 Oct 59

Glioblastoma multiforme is a highly invasive primary brain tumor, which is known to strongly express the CD44 cell adhesion receptor. A number of experimental studies suggest that the interaction of this receptor with extracellular matrix (ECM) proteins such as hyaluronic acid may in part mediate human glioma cell adhesion and invasion of brain tissue. Although the expression of CD44 and its spliced variants in brain tumors have been extensively studied, there have been no reports localizing its expression to the invasive margin of the tumor. The authors used immunoelectron microscopy to investigate the expression patterns of CD44 in an in vitro organotypic invasion assay. Tumor spheroids initiated from the U373 MG human glioblastoma line were confronted with fetal rat brain aggregates in a spheroid coculture system. The CD44 expression appeared at the interface between glioblastoma tumor spheroids and brain tissue, as well as in the spheroid itself. CD44 immunoreactivity was not detectable in mature 21-day fetal brain aggregates. The findings provide direct evidence that CD44 is expressed at the confrontational invasive border between glioblastomas and brain tissue, further supporting its role in glioma cell-ECM recognition and attachment.
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PMID:Localization of CD44 at the invasive margin of glioblastomas by immunoelectron microscopy. 935 34

Cell adhesion is a critical factor in the multistep process of tumour invasion. CD44 is one of the cell surface adhesion molecules responsible for interaction with hyaluronic acid, a component of the CNS extracellular matrix. The aim of the present study was to demonstrate whether alterations in the CD44 gene might account for different invasive behaviour. EcoRI restriction analysis by Southern blot hybridization revealed several additional hybridization signals in tissue specimens of two out of 16 patients with glioblastoma, indicating DNA rearrangements or point mutations, respectively, within the region of the CD44 gene. Expression patterns of CD44 isoforms in these two rearranged gliomas and in 28 other patients with malignant gliomas were analysed by RT-PCR. All cases displayed only the splice variant CD44H, which acts as hyaluronic acid receptor in glioma tumour cells. Tumour cell invasion was studied with Boyden chamber assays using hyaluronic acid as ligand and functional CD44H blocking antibody. Invasion of cells derived from those gliomas carrying the rearranged CD44 gene locus was decreased by about 50% compared with gliomas without rearrangement, indicating that the altered hybridization patterns in the two glioma samples influenced CD44H mediated glioma cell invasion through hyaluronic acid in vitro. Our results on CD44 isoform expression suggest that, in contrast to other solid tumours, gliomas seem to express only the CD44 variant. Genetic alterations within the CD44 gene might alter the binding domain of the receptor and thus account for different invasive behaviour in glioblastomas.
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PMID:Effect of changes in the CD44 gene on tumour cell invasion in gliomas. 936 62

The mechanisms underlying the rapid invasive growth of malignant gliomas are poorly understood. Adhesion to extracellular hyaluronic acid (HA) has been implicated in the invasive properties of tumor cells. We investigated the HA binding capacity of human (T98G, A172, U87MG, 86HG39, 85HG66) and rat (C6, 9L) glioma cell lines by means of HA coated, bovine serum albumin (BSA)-blocked (HA/BSA) and only BSA-blocked culture plates. Results were compared with adhesion to native wells (100% adhesion). Adhesion to HA/BSA was high for T98G (84.4%), medium for 86HG39 (36%), 9L (33.1%), A172 (35.5%) and low for 85HG66 (21.3%) and U87MG (26.8%). Adhesion to only BSA-coated wells was significantly lower in all these cell lines, suggesting a specific HA-adhesion. Only C6 showed similar adhesion to HA/BSA and BSA alone, therefore, C6 failed to bind HA specifically. These results suggest that adhesion to extracellular HA might be involved in the invasion of some gliomas.
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PMID:Hyaluronic acid binding capacity of malignant glioma cells. 956 2

The mechanisms leading to rapid invasive growth of malignant gliomas are poorly understood. Expression of the hyaluronic acid (HA) receptor CD44 and adhesion to HA are involved in invasive properties. Our previous studies have shown that malignant glioma cells are able to adhere to extracellular HA. Here we investigated expression of the hyaluronic acid receptor CD44 protein in five human (T98G, A172, U87MG, 86HG39, 85HG66) and two rat (C6, 9L) glioma cell lines. Influence of anti-CD44 antibody and hyaluronidase-preincubation on the HA-binding was determined using HA/BSA (bovine serum albumin)-coated culture plates. While all gliomas were highly positive for CD44 with no differences in the number of positive staining cells, median fluorescence intensity decreased as follows: C6>T98G>9L>85HG66> 86HG39>A172>U87MG. Using HA/BSA coated culture plates the relative levels of specific adhesion to HA were determined as T98G>A172>9L>86HG39>U87MG> 85HG66. C6 cells failed to bind HA specifically. Incubation with anti-human-CD44 MAb significantly decreased HA-adhesion of T98G, A172, 85HG66 and U87MG human glioma cells. However the binding capacity was completely blocked only in 85HG66 cells. The three other cell lines kept a specific HA-adhesion after saturation of the receptor. Hyaluronidase pretreatment markedly enhanced HA-adhesion of C6 and 9L rat glioma cells. These results suggest that (i) HA-adhesion of malignant glioma cells is mainly, but not only, mediated by CD44, (ii) expression of CD44 does not correspond with adhesion capacity and (iii) cell-bound glycosaminoglycans may influence glioma cell adhesion to extracellular HA.
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PMID:CD44 expression and hyaluronic acid binding of malignant glioma cells. 1039 Jan 50

Malignant gliomas are frequent and the prognosis is poor. The cytokine interferon gamma (IFN-gamma) enhances several immune phenomena and may be used in immunotherapy of tumours. Therefore we investigated the influence of IFN-gamma on human cell lines T98G, U87MG, 86HG39 and 85HG66, measuring cell viability (MTT-test) and proliferation (3H-thymidine uptake). IFN-gamma markedly decreased viability and proliferation of all investigated cell lines. Expression of CD44 and adhesion to hyaluronic acid (HA) are involved in glioma invasion. Influence of IFN-gamma on these two features has also been investigated. IFN-gamma markedly decreased HA-adhesion in all three investigated cell lines, whereas CD44 expression remained uninfluenced. To summarise, IFN-gamma strongly decreased cell growth and HA-adhesion of malignant glioma cell lines in vitro. We suggest further investigations to characterise better the role of IFN-gamma as a treatment opportunity for malignant gliomas.
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PMID:Interferon gamma inhibits proliferation and hyaluronic acid adhesion of human malignant glioma cells in vitro. 1080 25

In this study, the effect of thyroid hormone (triiodothyronine, T(3)) on the secretion of mitogenic growth factors in astrocytes and C6 glioma cells was examined. The proliferating activity of T(3) could be due, at least in part, to the astrocyte secretion of acidic and basic fibroblast growth factor (aFGF and bFGF), tumor necrosis factor-beta, and transforming growth factor-beta. In contrast, the conditioned medium (CM) of T(3)-treated C6 cells was mitogenic to this cell line only after hyaluronidase digestion, suggesting the impairment of growth factor mitogenic activity by hyaluronic acid. Furthermore, the presence of bFGF was significantly greater in the CM of both T(3)-treated astrocytes and T(3)-treated C6 cells than in the corresponding control CM. These data show that T(3) induces cerebellar astrocytes to secrete mitogenic growth factors, predominantly bFGF, that could influence astrocyte and neuronal proliferation via autocrine and paracrine pathways.
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PMID:Thyroid hormone induces cerebellar astrocytes and C6 glioma cells to secrete mitogenic growth factors. 1159 67

We have identified secreted protein acidic and rich in cysteine (SPARC) as a potential glioma invasion-promoting gene. To determine whether SPARC alters the growth, attachment, or migration of gliomas, we have used U87T2 and doxycycline-regulatable SPARC-transfected clones to examine the effects of SPARC on (1) cell growth, (2) cell cycle progression, (3) cell attachment, and (4) cell migration, using growth curves, flow cytometry, attachment, and migration analyses on different brain ECMs, including collagen IV, laminin, fibronectin, vitronectin, hyaluronic acid, and tenascin. Our data indicate that SPARC delays tumor cell growth in the log phase of the growth curve. The clones secreted different levels of SPARC. The clone secreting the lowest level of SPARC was associated with a higher percentage of cells in G2M, whereas the clones secreting the higher levels of SPARC were associated with a greater percentage of cells in G0/G1. In comparison to the parental U87T2 clone, the SPARC-transfected clones demonstrated increased attachment to collagen, laminin, hyaluronic acid, and tenascin, but not to vitronectin or fibronectin. SPARC-transfected clones also demonstrated altered migration on the different extracellular matrix proteins. The modulation of migration, either positive or negative, was associated with changes in the level of secreted SPARC. These data suggest that SPARC may modulate glioma proliferation and invasion by modulating both the growth and migration of glioma cells.
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PMID:SPARC modulates cell growth, attachment and migration of U87 glioma cells on brain extracellular matrix proteins. 1171 67

Malignant gliomas are highly proliferative and invasive tumors with poor prognosis. We investigated the influence of Interferon-gamma (IFN-gamma) on the human malignant glioma cell line A172, measuring cell viability (MTT-test), proliferation (3H-thymidine-uptake), cell death (FACS) adhesion to hyaluronic acid (HA, adhesion-assay) and migration (Boyden-chamber). IFN-gamma significantly decreased cell viability and proliferation. Measured by FACS, an up-regulation of CD95 expression has been shown in combination with an increased rate of cell death, first seen after 96 hours IFN-gamma treatment. Adhesion to HA was decreased after pre-treatment with IFN-gamma. This was not mediated by down-regulation of the main HA-receptor CD44, since IFN-gamma did not change CD44 expression. IFN-gamma-treated cells showed a significantly diminished migration rate through a native or HA-coated 8-microm polycarbonate membrane. To summarise, IFN-gamma influences both the main characteristics of malignancy: it decreases cell proliferation and induces cell death, further it diminishes migration of A172 human glioblastoma cells.
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PMID:Interferon-gamma inhibits growth and migration of A172 human glioblastoma cells. 1191 Dec 81

Glioblastoma is a severe type of primary brain tumor and its invasion is strongly correlated with the secretion of matrix metalloproteinases (MMPs). To investigate a role of PTEN, a tumor suppressor gene, in the regulation of hyaluronic acid (HA)-induced invasion of glioma cells, we examined the secretion of MMP-9 in various glioma cells with or without a functional PTEN gene. The secretion of MMP-9 in glioma cells lacking functional PTEN (U87MG, U251MG, and U373MG) was induced by HA, although not in wildtype (wt)-PTEN-harboring cells (LN229, LN18, and LN428). In addition, stable expression of wt-PTEN into U87MG cells significantly decreased the secretion of HA-induced MMP-9 and basal levels of MMP-2, inhibiting the activation of focal adhesion kinase and extracellular signal-regulated kinase 1/2, whereas the secretion levels of the tissue inhibitor of metalloproteinase-1 and -2 were increased, finally resulting in the inhibition of invasion by HA in vitro. Ectopic expressions of adenoviral (Ad)-wt-PTEN and -lipid phosphatase-deficient (G129E)-PTEN, but not both protein and -lipid phosphatase-deficient (C124S)-PTEN, reduced MMP-9 secretion and invasion by HA. These results were also confirmed by expressions of Ad-wt-PTEN and Ad-G129E-PTEN in other glioblastoma cells lacking functional PTEN, U251MG, and U373MG. These findings strongly suggest the possibility that PTEN may block HA-induced MMP-9 secretion and invasion through its protein phosphatase activity.
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PMID:PTEN suppresses hyaluronic acid-induced matrix metalloproteinase-9 expression in U87MG glioblastoma cells through focal adhesion kinase dephosphorylation. 1241 63


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