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)

To analyse the interactions between glioma cells and extracellular matrix (ECM) proteins, the adhesive and migratory capacity of five human glioma cell lines (D37MG, D54MG, GaMG, U118MG and U251MG) were studied. The expression of integrins was analysed and correlated to the adhesive and migratory abilities of the cells. All cell lines were able to adhere to and migrate on the extracellular matrix proteins collagen IV, fibronectin, laminin and vitronectin. Laminin was superior in propagating adhesion and migration in all five cell lines. As analysed by flow cytometry, the expression of the integrin subunits alpha 2, alpha 3, alpha 4, alpha 5, alpha 6, beta 3, beta 4, alpha v, and integrin alpha v beta 5 proved to be uniform between the cell lines. All integrins except alpha 4, alpha 6, beta 3 and beta 4 were expressed on more than 85% of the cells. Inhibition of adhesion with synthetic peptides and antibodies directed against integrins demonstrated that adhesion on laminin was independent of integrins and the 67 kD laminin receptor. On the other hand, migration was shown to be integrin-dependent on all substrates. The results indicate that the mechanism responsible for cell adhesion in human gliomas differ from those present during migration, and that integrins play an important role in regulating these two mechanisms.
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PMID:Adhesion and migration of human glioma cells are differently dependent on extracellular matrix molecules. 913 46

To identify antigenic differences between gliomas and normal brain, we have immunohistochemically studied the expression of lymphocyte adhesion molecules (ICAM-1, ICAM-2, ICAM-3, VCAM-1, E-selectin and CD58), epidermal growth factor receptor (EGFR) and extracellular matrix proteins (collagen IV, fibronectin, laminin, merosin, tenascin and vitronectin) in these tissues. Gliomas expressed high levels of ICAM-1, CD58 (LFA-3), EGFR, tenascin and vitronectin, whereas only very low levels were detected in normal brain. VCAM-1 expression was detected in 15 out of 25 gliomas but not in normal brain. The presence of VCAM-1 in gliomas was verified by immunoblotting and RNase protection assay, and in glioma cell lines by Northern blotting. Expression of VCAM-1 in gliomas may partially explain lymphocytic infiltration, and anti-VCAM-1 antibodies may be of potential in antibody mixtures for targeted therapy of gliomas.
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PMID:Lymphocyte adhesion molecule ligands and extracellular matrix proteins in gliomas and normal brain: expression of VCAM-1 in gliomas. 929 90

Stable transfection of U251.3 glioma cells with cDNA encoding MT-MMP-1 resulted in increased cell surface expression of MT-MMP-1 and TIMP-2, constitutive activation of MMP-2 proenzyme and increased collagen degradation. In tumor spheroid outgrowth assays, cell migration of MT-MMP-1 transfectants relative to control was enhanced on collagen and decreased on vitronectin and fibronectin. These effects were reversed by TIMP-2 and were not associated with any substantial changes in cell adhesion. Binding of U251.3 cells to the C-terminal domain of MMP-2 was specifically inhibited by anti-(alpha)vss3 integrin blocking antibody indicating that MMP-2 interacts with (alpha)vss3 through the enzyme's C-terminal portion at or near the integrin's matrix adhesion sites. We propose that these mechanisms could govern directed matrix degradation in the tumor cells' microenvironment by sequestration of active MMP-2 on the cell surface. Our data suggest that activation of MMP-2 and its proteolytic activity localized to the cell surface could differentially modulate tumor cell migration in response to particular matrix proteins by altering both composition of the extracellular matrix and expression of adhesion receptors on the cell surface.
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PMID:Matrix metalloproteinase-2 activation modulates glioma cell migration. 941 Aug 85

Gliomas, characterized by their progressively invasive phenotype, express integrin alpha3beta1 as a major receptor for the extracellular matrix both in vivo and in vitro. Since the integrin alpha3beta1 has been shown to be a specific receptor for laminin-5 (alpha3beta3gamma2), we examined the effects of purified human laminin-5 on adhesion, migration and invasion of human glioma cells. Among different types of laminin variants and other matrix proteins including fibronectin and vitronectin, laminin-5 was most potent in promoting adhesion and migration of different kinds of glioma cells. Laminin-5-mediated adhesion and migration were specifically inhibited by monoclonal antibodies against integrin alpha3 and beta1 chains, confirming the role of integrin alpha3beta1 as the major laminin-5 receptor. Invasion of the reconstituted basement membrane (i.e., Matrigel) by glioma cells was also selectively stimulated by laminin-5. Out results show that laminin-5 is the major extracellular stimulant for glioma cell adhesion, migration and invasion. The immunohistochemical distribution of laminin gamma2 chain, a laminin subunit unique to laminin-5, showed that it was expressed in the tumor parenchyma of human glioma tissues. Expression of laminin alpha3, beta3 and gamma2 chains in glioma tissues and in glioma cell lines was also demonstrated at the messenger RNA level by reverse transcription polymerase chain reaction. Our results, taken together, show that laminin-5 may be involved in the invasive phenotype of malignant gliomas both in vitro and in vivo.
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PMID:Integrin alpha3beta1-mediated interaction with laminin-5 stimulates adhesion, migration and invasion of malignant glioma cells. 953 63

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

Vitronectin (VN) is an extracellular matrix (ECM) protein, the synthesis of which in vivo by glioma cells correlates with tumor grade. Although the role of VN as a permissive substrate for glioma migration has been well characterized, its role in conferring a survival advantage for tumor cells has not been addressed previously. By using an in vitro assay of DNA fragmentation as a quantitative measure of apoptotic cell death, we sought to determine whether the sensitivity of two human glioma cell lines (D54 and U251) to drug-induced apoptosis could be inhibited by VN. As well, the extent to which apoptosis could be inhibited was correlated with the levels of the Bcl-2 family of proteins that are known to modulate apoptosis and chemoresistance. Results of the study were: (a) VN coatings, in a dose-dependent manner, inhibited topoisomerase (Topo)-induced apoptosis by up to 50% (optimal coating density, 500 ng/cm2); in contrast, fibronectin (FN), an ECM protein present in abundance in the brain, demonstrated no protection; (b) in a dose-response study, VN clearly conferred a survival advantage (LD50 of Topo: on VN, 120 ng/ml; on FN, 35 ng/ml); (c) the protective effect of VN was not due to enhanced cell adhesion or alterations in the cell cycle distribution; (d) both of the classic integrin receptors that bind VN (alpha(v)beta3, alpha(v)beta5) were capable of mediating this protective effect, because ligation of either of the two classic integrins conferred chemoresistance to Topo; and (e) chemoresistance observed with VN was associated with an increase in expression of two antiapoptotic proteins, Bcl-2 and Bcl-X(L), with a consequent increase in the ratios for Bcl-2:Bax and Bcl-X(L):Bax. VN, an ECM protein preferentially expressed at the tumor-brain interface in vivo, may confer a survival advantage to glioma cells at the advancing tumor margin and may thus, in part, underlie the high level of tumor recurrence at this interface.
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PMID:Vitronectin, a glioma-derived extracellular matrix protein, protects tumor cells from apoptotic death. 1038 48

The distribution of the urokinase-type plasminogen activator receptor (uPAR) on human glioma cells was examined as a function of culture conditions, using immunofluorescence and immunophotoelectron microscopy. Both uPAR colocalization with focal adhesion proteins and glioma cell motility were maximal in medium containing whole serum or a serum fraction retained by a 500,000 mol wt cutoff centrifugal concentration filter. High motility also took place in medium containing a serum fraction passed by the 500,000 cutoff filter but retained by a 100,000 cutoff filter and in minimal medium containing added vitronectin; however, under these conditions only a small percentage of the otherwise abundant focal adhesions contained colocalized uPAR. Glioma cells in minimal medium with added laminin migrated with a highly elongated morphology but without either classical focal adhesions or well-defined uPAR labeling. In contrast, glioma cells in minimal medium with no additions did not migrate, nor did they adhere well or display defined labeling patterns for focal adhesion proteins or uPAR. The results indicate that high-molecular-weight serum protein complexes promote both uPAR-focal adhesion colocalization and cell migration in glioma cells. However, conditions can be selected in which migration takes place with minimal uPAR-focal adhesion localization, as well as in the absence of apparent focal adhesions.
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PMID:High-molecular-weight serum protein complexes differentially promote cell migration and the focal adhesion localization of the urokinase receptor in human glioma cells. 1085 55

Glioblastoma multiforme (GBM) is the most malignant astroglial-derived tumors which has the propensity to aggressively infiltrate normal regions of the brain surrounding the tumor. The interaction of tumor cells with the extracellular matrix (ECM) is an integral step in the process of tumorigenesis and may play a role in the local invasion of the GBM cells. Our study investigated the role of the nuclear transcription factor NF-kappaB on GBM integrin expression and cell attachment. Our results show that treatment of GBM cell lines, SNB-19 and T98G with PMA, an inducer of NF-kappaB, increased the expression of fibronectin and vitronectin genes. Accordingly, ectopic over-expression of NFkappaB subunits in GBM cells elevated the levels of fibronectin gene expression, providing direct evidence for a regulatory role for NF-kappaB in ECM protein production. Cell attachment to the ECM proteins including fibronectin, vitronectin and laminin was increased in GBM and normal astrocytic cells. Interestingly, treatment of cells with PMA augmented attachment of SNB-19 and T98G cells to fibronectin and vitronectin, however it had no effect on attachment of normal astrocytes. Addition of the tripeptide arginine-glycine-asparatic acid (RGD), the recognition site for many integrins, significantly inhibited SNB-19 and T98G cell attachment to fibronectin and vitronectin. Finally, activation of NFkappaB upon treatment of SNB cells with PMA led to an increase in the levels of mRNA for the beta3 and the alphav integrin subunits. Collectively, these data demonstrate a possible role for NF-kappaB in glioma cell attachment.
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PMID:Integrin involvement in glioblastoma multiforme: possible regulation by NF-kappaB. 1086 46

SPARC is a secreted glycoprotein that interacts with extracellular matrix (ECM) proteins to promote de-adhesion of cells from the matrix, thereby inducing a biological state conducive to cell migration. We have demonstrated that SPARC is highly expressed in gliomas (grades II-IV) and promotes glioma invasion in vitro. Therefore, the protein itself or its mechanisms of action might become therapeutic targets to arrest glioma invasion. Vitronectin is an ECM protein found in the blood vessel basement membranes and may promote glioma invasion along these structures. It binds to SPARC in vitro. However, it is not known whether SPARC and vitronectin colocalize and/or interact to contribute to brain tumor cell migration in vivo. In this study, we immuno-histochemically determined if the grade I juvenile pilocytic astrocytomas (JPAs) also express SPARC, if vitronectin is expressed in grades I, II, and IV astrocytomas, and if the proteins colocalize in brain tumors in vivo. We performed western blot analyses to determine if different grades of tumors had different intracellular and/or secreted levels of SPARC and vitronectin. We performed migration assays to determine whether vitronectin is a permissive substrate for glioma migration, and whether the extent of migration correlates with the level of secreted SPARC. Our data demonstrated that JPAs expressed SPARC and secreted significantly higher levels than glioblastomas multiforme (GBMs). Vitronectin was absent from well-preserved tumor but present in areas of disrupted tumor, such as degeneration and/or necrosis. SPARC and vitronectin colocalized only in regions of angiogenesis. We observed that the extent of migration on vitronectin inversely correlated with the level of secreted SPARC: the higher the level, the lesser the migration. These data suggest that the outcome of SPARC - ECM interactions may depend on local SPARC concentrations. The high levels of SPARC secreted by the JPAs, paradoxically, may be more prohibitive for migration on vitronectin than the lower levels secreted by the GBMs. This may account, in part, for the lack of JPA invasion into brain tissue along blood vessel membranes.
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PMID:A study of SPARC and vitronectin localization and expression in pediatric and adult gliomas: high SPARC secretion correlates with decreased migration on vitronectin. 1099 78

We used an in vitro model for glioma cell invasion (transwell migration assay) and patch-clamp techniques to investigate the role of volume-activated Cl(-) currents (I(Cl,Vol)) in glioma cell invasion. Hypotonic solutions ( approximately 230 mOsm) activated outwardly rectifying currents that reversed near the equilibrium potential for Cl(-) ions (E(Cl)). These currents (I(Cl,Vol)) were sensitive to several known Cl(-) channel inhibitors, including DIDS, tamoxifen, and 5-nitro-2-(3-phenylpropylamino)-benzoate (NPPB). The IC(50) for NPPB inhibition of I(Cl,Vol) was 21 microm. Under isotonic conditions, NPPB (165 microm) blocked inward currents (at -40 mV) and increased input resistance in both standard whole-cell recordings and amphotericin perforated-patch recordings. Reducing [Cl(-)](o) under isotonic conditions positively shifted the reversal potential of whole-cell currents. These findings suggest a significant resting Cl(-) conductance in glioma cells. Under isotonic and hypotonic conditions, Cl(-) channels displayed voltage- and time-dependent inactivation and had an I(-) > Cl(-) permeability. To assess the potential role of these channels in cell migration, we studied the chemotactic migration of glioma cells toward laminin or vitronectin in a Boyden chamber containing transwell filters with 8 microm pores. Inhibition of I(Cl,Vol) with NPPB reduced chemotactic migration in a dose-dependent fashion with an IC(50) of 27 microm. Time-lapse video microscopy during patch-clamp recordings revealed visible changes in cell shape and/or movement that accompanied spontaneous activation of I(Cl,Vol), suggesting that I(Cl,Vol) is activated during cell movement, consistent with the effects of NPPB in migration assays. We propose that I(Cl,Vol) contributes to cell shape and volume changes required for glioma cell migration through brain tissue.
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PMID:Volume-activated chloride currents contribute to the resting conductance and invasive migration of human glioma cells. 1156 57

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