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)

Immunohistochemistry (IHC) has provided major insights about the classification of brain tumors by identifying cellular markers of phenotype and about tumor growth potential with nuclear markers of proliferation. In situ hybridization (ISH) research shows promise for diagnostic applications in tumor classification. The avidin-biotin conjugate IHC procedure is highlighted for diagnostic use on routinely processed clinical specimens. The immunophenotypes of brain tumors are tabulated in reference to their common IHC markers. Tumors that have been correctly classified by their IHC phenotypes include the giant-cell glioblastoma, primary brain lymphoma, and central neurocytoma. Phenotypes that may be more definitively detected by ISH, such as pituitary hormone, immunoglobulin light chain, and collagen messages are described. IHC of nuclear proliferation markers correlates with grade of malignancy, predicts tumor growth potential, and is prognostic for patient survival. The incorporation of bromodeoxyuridine, the expression of proliferating cell nuclear antigen, and the expression of Ki-67 antigen detected by MIB-1 antibody are compared in regard to their cell cycle activity and labeling index determinations. Fluorescence in situ hybridization (FISH) of brain tumor interphase nuclei and chromosomes is described. Abnormal FISH signals of specific chromosomes are associated with different types of brain tumors, with different grades of malignancy, and with mesenchymal drift of glioma cells in culture.
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PMID:Insights about brain tumors gained through immunohistochemistry and in situ hybridization of nuclear and phenotypic markers. 960 6

Previous studies have demonstrated that components of the extracellular matrix can induce neurite extension and cell adhesion in the neuroblastoma x glioma hybrid cell line, NG108-15. Using standard intracellular recording techniques, we examined the resting membrane potential (RMP) and membrane excitability of NG108-15 cells differentiated under serum-free media with representative extracellular matrix (ECM) protein components as the substrate. Surfaces coated with collagen IV and a laminin-1 synthetic peptide induced a significantly (P < 0.05) more hyperpolarized RMP than control polystyrene surfaces. For example, after > or =8 days in culture NG108-15 cells plated on polystyrene exhibited a RMP of -33.2+/-0.8 mV (mean+/-SEM, n=158 cells) whereas cells cultured on the laminin-1 peptide C16 and collagen IV showed a RMP of -37.6+/-0.7 mV (n=157) and -37.5+/-1.5 mV (n=68), respectively. Furthermore, the proportions of cells on ECM substrates showing membrane excitability, i.e. evoked action potentials (APs) and the capability for regular firing, were significantly greater compared to those cells cultured on polystyrene. Among excitable cells cultured on the different substrates, characteristics of the action potentials, such as AP duration, amplitude, and the maximum rate of rise, dV/dtMAX, were examined in detail. While little or no differences were observed between polystyrene and the laminin-1 peptide groups, significant differences in the AP parameters were apparent for collagen IV. For example, dV/dtMAX for polystyrene and the laminin-1 peptide C16 were only 71.7+/-24.5 V/s (n=11) and 59.0+/-8.9 V/s (n=9), respectively, whereas cells cultured on collagen IV surfaces exhibited a dV/dtMAX reaching 156.1+/-22.0 V/s (n=7). These data support a role for ECM components in the maintenance of the RMP and membrane excitability in NG108-15 cells.
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PMID:Influence of extracellular matrix proteins on membrane potentials and excitability in NG108-15 cells. 962 95

Within the brain, dissemination of glioma cells follows myelinated fiber tracts and extracellular matrix containing structures such as the basement membranes of blood vessels. These patterns represent the two major routes of invasion frequently observed in clinical disease. Previously, we have characterized the substrates for preferential glioma adhesion and migration on purified ECM protein. In this study sections of human brain from different anatomical regions were used as adhesive substrates and also characterized for the presence and distribution of matrix proteins. Adhesion of marker gene transfected glioma cell suspensions to different regions and anatomical structures of human brain was quantified using a computer assisted image analysis system. Monoclonal antibodies against different adhesion molecules were used to inhibit glioma cell attachment ot specific anatomical structures. In addition, glioma cell aggregates were allowed to adhere to brain sections and single cells were observed to migrate out of these aggregates. Scanning electron microscopy was used to morphologically study the preferred routes of glioma dissemination on brain sections. In brain sections different kinetics of cell adhesion to distinct structures were observed. Within 15 minutes cells adhered and spread on blood vessels and arachnoid tissue containing sections. Choroid plexus and the ventricular wall were also adhesive structures. Adhesion to cortex required 1 hour, while adhesion and spreading on myelinated fiber tracts was retarded and required several hours of incubation. The predominant matrix proteins in small vessels were found to be laminin, collagen type IV, and fibronectin. Choroid plexus and the ependyma showed a similar composition of matrix proteins. Arachnoid fibers contained different types of collagens, predominately type I and III, whereas the only matrix protein identified in the subependyma was fibronectin. Antibodies to the alpha 2, alpha 3, and beta 1 integrin subunits completely blocked adhesion to arachnoid tissue, anti-NCAM inhibited attachment to cortex. Adhesion to blood vessels in brain sections could only be inhibited to 50% by anti-integrin beta 1. Antibodies to the av containing integrin av beta 3 also blocked 50% of adhesion to vessels. Our findings indicate that adhesion of glioma cells to brain sections most rapidly takes place on ECM protein containing regions, especially blood vessels which may serve as guiding structures for glioma dissemination.
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PMID:Glioma cell adhesion and migration on human brain sections. 970 90

We assessed the functional significance of tumor cell-associated matrix metalloproteinase (MMP)-2 in extracellular matrix remodeling compared with that of the soluble enzyme by evaluating the contraction of three-dimensional collagen lattices by human glioma U251.3 and fibrosarcoma HT-1080 cell lines. In this model, the constitutive synthesis and activation of the MMP-2 proenzyme were modulated by stable transfections of tumor cells with cDNA encoding membrane type 1-MMP (MT1-MMP). The efficiency of transfected cells in contracting collagen lattices was shown to be dependent on the MT1-MMP-mediated activation of MMP-2 accompanied by cell surface association of activated MMP-2, on the cell-matrix interactions controlled by collagen-specific integrins, and on the integrity of actin and microtubule cytoskeletons. Each one of these mechanisms was essential but was not sufficient by itself in accomplishing gel contraction by MT1-MMP-transfected cells. Both MMP-2 activation and gel contraction by transfected glioma cells were inhibited by tissue inhibitor of metalloproteinase (TIMP)-2 and the recombinant COOH-terminal domain of MMP-2. However, the kinetics and mechanisms of their inhibitory effects were different, because TIMP-2 and the COOH-terminal domain of MMP-2 preferentially inhibited the MT1-MMP-dependent and autocatalytic steps of MMP-2 activation, respectively. By contrast, TIMP-1, an efficient inhibitor of soluble MMP-2 activity, failed to affect gel contraction. In addition, soluble MMP-2 activated by either organomercurials or cells was not able to induce the contraction of collagen lattices when added to transfected cells. Therefore, soluble activated MMP-2, sensitive to TIMP-1 inhibition, does not mediate collagen gel contraction by tumor cells, whereas the activity of cell surface-associated MMP-2 plays a critical role in remodeling of the extracellular matrix in vitro. These mechanisms of functional and spatial regulation of MMP-2 may also be applicable to different aspects of tissue reorganization in vivo, including cell migration and invasion, angiogenesis, and wound healing.
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PMID:Remodeling of collagen matrix by human tumor cells requires activation and cell surface association of matrix metalloproteinase-2. 972 88

Gliomas are characterized by their extensive invasion into the brain parenchyma. Recently it has been shown that normal brain cells can produce laminin, fibronectin and collagen type IV when confronted by invading glioma cells. Laminin stimulates cell migration of several human glioma cell lines in vitro. This migration can be inhibited by adding blocking monoclonal antibodies (MAbs) against the most expressed integrin subunits, alpha3 and beta1. Previous studies have shown that glioma cell migration, invasion and growth are stimulated by epidermal growth factor (EGF). However, MAb directed against the EGF receptor (EGFR) did only partly inhibit the invasive process in vitro. Since laminin has regional peptide homology with EGF (EGF-like repeats), the present work was aimed at studying how two human glioma cell lines exposed to antibodies to the EGFR, reacted to laminin stimulated migration. Furthermore, we wanted to study which role the EGFR and the laminin receptor integrin subunits alpha3 and beta1 play during glioma cell invasion. EGFR expression of two glioma cell lines, AN1/lacZ and U-251/lacZ was studied by flow cytometry and immunofluorescence microscopy. A cell migration assay was used to study effects of MAbs against EGFR on migration from laminin-stimulated tumor spheroids. Tumor cell invasion was evaluated by using an in vitro co-culture model, where normal fetal brain cell aggregates were confronted with multicellular tumor spheroids. The results show that both cell lines expressed EGFR, AN1/lacZ 4-fold more than U-251/lacZ. MAb against EGFR inhibited the laminin-stimulated migration only from AN1/lacZ spheroids. MAbs against alpha3 and beta1 integrin subunits inhibited glioma cell invasion in vitro. The present work indicates possible connections between laminin-stimulated cell migration and the EGFR expression on glioma cells. These elements contribute to the characteristic features of glioma cells and may be an important part of the complex relationships between growth factors, integrins and extracellular matrix during glioma cell invasion.
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PMID:Epidermal growth factor and laminin receptors contribute to migratory and invasive properties of gliomas. 987 21

Angiogenesis is a possible target in the treatment of human gliomas. To evaluate the role of 3 growth factors, vascular endothelial growth factor (VEGF), hepatocyte growth factor/scatter factor (HGF/SF) and basic fibroblast growth factor (bFGF), in the angiogenic cascade, we determined their levels in extracts of 71 gliomas by enzyme-linked immunosorbent assay (ELISA). The levels of bFGF were only marginally different between gliomas of World Health Organization (WHO) grade II (low grade) and grades III and IV (high grade). In contrast, the mean concentrations of VEGF were 11-fold higher in high-grade tumors and those of HGF/SF 7-fold, respectively. Both were highly significantly correlated with microvessel density (p < 0.001) as determined by immunostaining for factor VIII-related antigen. In addition, VEGF and HGF/SF appeared to be independent predictive parameters for glioma microvessel density as determined by multiple regression analysis. We measured the capacity of all 3 factors to induce endothelial tube formation in a collagen gel. In this assay, bFGF was found to be an essential cofactor with which VEGF as well as HGF/SF were able to synergize independently. According to the concentrations of angiogenic factors, extracts from high-grade tumors were significantly more potent in the tube formation assay than the low-grade extracts (p = 0.02). Adding neutralizing antibodies to bFGF, VEGF and HGF/SF together with the extracts, tube formation was inhibited by up to 98%, 62% and 54%, respectively. Our findings suggest that bFGF is an essential cofactor for angiogenesis in gliomas, but in itself is insufficient as it is present already in the sparsely vascularized low-grade tumors. Upon induction of angiogenesis in high-grade tumors, bFGF may synergize with rising levels of not only VEGF but possibly also with HGF/SF, which appears here to be an independent angiogenic factor.
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PMID:Levels of vascular endothelial growth factor, hepatocyte growth factor/scatter factor and basic fibroblast growth factor in human gliomas and their relation to angiogenesis. 998 25

The present knowledge about the interaction between the extracellular matrix (ECM) and gliomas is mostly based on studies of permanent cell lines. Since such cultures have undergone an extensive clonal selection in vitro, the experimental results obtained may be quite different from those obtained from studies on true biopsy specimens. The present work demonstrates how different ECM components affect tumor cell migration from human glioblastoma specimens grown as biopsy sample spheroids. Biopsy specimens from 12 glioblastomas and 1 gemistocytic astrocytoma were included in this study. Spheroids were directly initiated from the biopsy specimens, and after 3-4 weeks in culture, they were used in a migration assay. A custom-made filtered medium, where the high molecular weight (>100 kDa) proteins were removed, was supplemented with the following ECM components: laminin, fibronectin, collagen type IV and vitronectin. The cell migration was negligible when spheroids were propagated in the filtered medium. The ECM components as well as complete DMEM evoked strong stimulatory effects on different biopsy specimens. Opposed to that observed earlier for permanent glioma cell lines, highly variable responses were observed between the different biopsy samples on the various ECM components. In general, correlation analyses revealed that specimens that were strongly stimulated by laminin were also stimulated strongly by fibronectin, collagen type IV and vitronectin. This suggests that the capacity to migrate as a response to ECM was confined more to each biopsy specimen than to any specific ECM component. Since biopsy sample spheroids, as original tumors, consist of different cell types, an immunohistochemical characterization of the migrating cells was also performed. Anti-glial fibrillary acidic protein (GFAP) staining revealed both GFAP-positive and -negative migrating cells. Immunostaining for von Willebrand factor and CD11b indicated that the migrating cells were neither endothelial nor microglial cells. This study, therefore, indicates that migratory responses of glioma biopsy specimens to different ECM components is much more heterogeneous than that observed earlier for cell lines. Furthermore, the presented findings support the notion that gliomas may utilize different cell surface receptors for their migration, depending on the cell substrates available.
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PMID:Extracellular matrix-induced cell migration from glioblastoma biopsy specimens in vitro. 1009 Jun 69

Transient expression of the differentiation and tumor cell surface antigen gp130(RB13-6) characterizes a subset of rat glial progenitor cells susceptible to ethylnitrosourea-induced neurooncogenesis. gp130(RB13-6) is as a member of an emerging protein family of ecto-phosphodiesterases/nucleotide pyrophosphatases that includes PC-1 and the tumor cell motility factor autotaxin. We have investigated the potential role of gp130(RB13-6) in glial differentiation by transfection of three cell lines of different origin that do not express endogenous gp130(RB13-6) (NIH-3T3 mouse fibroblasts; C6 and BT7Ca rat glioma cells) with the cDNA encoding gp130(RB13-6). The effect of gp130(RB13-6) expression was analyzed in terms of overall cell morphology, the expression of glial cell-specific marker proteins, and invasiveness. Transfectant sublines, consisting of 100% gp130(RB13-6)-positive cells, exhibited an altered, bipolar morphology. Fascicular aggregates of fibroblastoid cells subsequently developed into mesh-like patterns. Contrary to the parental NIH-3T3 and BT7Ca cells, the transfectant cells invaded into collagen type I. As shown by immunofluorescence staining of the transfectant sublines as well as of primary cultures composed of gp130(RB13-6)-positive and -negative cells, expression of gp130(RB13-6) induced coexpression of proteins typical for glial cells and their precursors, i.e., glial fibrillary acidic protein, the low affinity nerve growth factor receptor, and the neural proteins Thy-1, Ran-2, and S-100. In accordance with its expression in the immature rat nervous system, gp130(RB13-6) may thus have a significant role in the glial differentiation program and its subversion in neurooncogenesis.
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PMID:Neural cell surface differentiation antigen gp130(RB13-6) induces fibroblasts and glioma cells to express astroglial proteins and invasive properties. 1009 26

Acquisition of invasive/metastatic potential through protease expression is an essential event in tumor progression. Urokinase-type plasminogen activator (uPA) is often expressed in human tumors including astrocytic tumors. To elucidate the possible regulation mechanism of uPA gene expression in astrocytic tumors, quantitative RT-PCR was performed to monitor the gene expression of uPA and the transcription factor Ets-1. Expression of uPA and Ets-1 genes was up-regulated in astrocytic tumors, but was not detected in normal brain. Expression levels of uPA correlated with those of Ets-1, and also with the degree of malignancy of the tumors. Glioma cell lines U251, U87, and T98G also expressed both uPA and Ets-1 genes. Expression of a dominant negative mutant of Ets-1, which competitively inhibits Ets-1 function, abolished uPA expression in U251 cells. Parental U251 cells showed invasive growth in 3-dimensional collagen gel, however, cells expressing dominant negative Ets-1 failed to grow invasively in the collagen gel. Treatment of U251 cells with the uPA inhibitor aprotinin also inhibited spreading of cells into collagen gel. These results suggest that Ets-1 plays an essential role in regulation of uPA gene expression, which in turn contributes to the invasive growth of astrocytic tumors.
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PMID:Ets-1 positively regulates expression of urokinase-type plasminogen activator (uPA) and invasiveness of astrocytic tumors. 1021 28

The effect of tissue site of implantation of four different human gliomas on tumor vascularity and perfusion was examined. Vascular parameters of gliomas implanted subcutaneously in the nude mouse and intracerebrally in the nude rat were analyzed. Tumor vessels were stained with an antibody to collagen type IV and perfusion was investigated with the perfusion marker Hoechst 33342. Characteristic vascular patterns were observed in both intracerebral and subcutaneous xenografts belonging to the same tumor line. Major differences in vascular architecture and in the degree of vascularization were noted in comparisons of the two implantation sites for the same tumor line. Tumor perfusion was highly variable for both locations of tumor growth. Distinct differences between the implantation sites of similar tumor lines in vascular perfusion, intervascular distance, and vascular density were present. Incomplete perfusion of vascular structures, as seen in this study, may result in reduced delivery of oxygen to tumor areas. Therefore, measurements of vascular density and intervascular distance alone, without knowledge of the perfusion status, may not be sufficient to estimate the degree of tumor oxygenation. Furthermore, differences in vascular parameters may have important consequences for treatment modalities such as radiotherapy and chemotherapy. Thus, the findings in our study suggest that care has to be taken in extrapolating therapy results obtained with subcutaneous glioma tumor models to the original growth location of gliomas, the brain, due to major differences in vasculature.
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PMID:A quantitative analysis of vascularization and perfusion of human glioma xenografts at different implantation sites. 1032 51

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