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)

Two nervous tissue-specific chondroitin sulfate proteoglycans, neurocan and phosphacan (the extracellular domain of protein-tyrosine phosphatase-zeta/beta), are high-affinity ligands of tenascin-C. Using portions of tenascin-C expressed as recombinant proteins in human fibrosarcoma cells, we have demonstrated both by direct radioligand binding assays and inhibition studies that phosphacan binding is retained in all deletion variants except those lacking the fibrinogen-like globe and that phosphacan binds to this single domain with nearly the same affinity (Kd approximately 12 nM) as to native or recombinant tenascin-C. However, maximum binding of neurocan requires both the fibrinogen globe and some of the adjacent fibronectin type III repeats. Binding of phosphacan and neurocan to intact tenascin-C, and of phosphacan to the fibrinogen globe, is significantly increased in the presence of calcium. Chondroitinase treatment of the proteoglycans did not affect their binding to either native tenascin-C or to any of the recombinant proteins, demonstrating that these interactions are mediated by the proteoglycan core proteins rather than through the glycosaminoglycan chains. These results are also consistent with rotary shadowing electron micrographs that show phosphacan as a rod terminated at one end by a globular domain that is frequently seen apposed to the fibrinogen globe in mixtures of phosphacan and tenascin-C. C6 glioma cells adhere to and spread on deletion variants of tenascin-C containing only the epidermal growth factor-like domains or the fibronectin type III repeats and the fibrinogen globe. In both cases cell adhesion was inhibited by similar concentrations of phosphacan, demonstrating that the fibrinogen globe is not necessary for this effect, which is apparently mediated by a direct action of phosphacan on the cells rather than by its interaction with the proteoglycan binding site on tenascin-C.
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PMID:The fibrinogen-like globe of tenascin-C mediates its interactions with neurocan and phosphacan/protein-tyrosine phosphatase-zeta/beta. 918 84

Previous studies have established that the NG2 proteoglycan binds directly to type VI collagen. To further our understanding of the biochemical and functional significance of this interaction we have used NG2 cDNA to construct a series of NG2 mutants with deletions spaced throughout the entire length of the 260-kDa NG2 core protein. Following transfection of these mutant cDNAs into B28 glioma cells, we determined the ability of mutant NG2 molecules to anchor type VI collagen on the cell surface. Eight of 11 transfectant populations were able to anchor type VI collagen. The three NG2 variants incapable of anchoring type VI collagen have deletions clustered within the central one-third of the NG2 ectodomain. These deletions identify a 469-amino-acid domain of NG2 responsible for binding of type VI collagen. Functional consequences of the NG2-type VI collagen interaction were explored by testing the relative ability of NG2-transfected and untransfected glioma cells to migrate toward type VI collagen. NG2-expressing cells exhibited a greater migratory response toward type VI collagen than their NG2-negative counterparts. This enhanced migration could be specifically inhibited with NG2 antibodies. Furthermore, glioma cells expressing NG2 in which the collagen-binding domain was deleted failed to exhibit this enhanced migration, whereas NG2 mutants in which non-collagen-binding regions were deleted continued to exhibit increased chemotaxis toward the type VI collagen. These comparisons confirm the importance of the central collagen-binding domain in mediating functionally important interactions between NG2 and type VI collagen.
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PMID:A central segment of the NG2 proteoglycan is critical for the ability of glioma cells to bind and migrate toward type VI collagen. 928 75

We have investigated the expression patterns and subcellular localization in nervous tissue of glypican, a major glycosylphosphatidylinositol-anchored heparan sulfate proteoglycan that is predominantly synthesized by neurons, and of biglycan, a small, leucine-rich chondroitin sulfate proteoglycan. By laser scanning confocal microscopy of rat central nervous tissue and C6 glioma cells, we found that a significant portion of the glypican and biglycan immunoreactivity colocalized with nuclear staining by propidium iodide and was also seen in isolated nuclei. In certain regions, staining was selective, insofar as glypican and biglycan immunoreactivity in the nucleus was seen predominantly in a subpopulation of large spinal cord neurons. The amino acid sequences of both proteoglycans contain potential nuclear localization signals, and these were demonstrated to be functional based on their ability to target beta-galactosidase fusion proteins to the nuclei of transfected 293 cells. Nuclear localization of glypican beta-galactosidase or Fc fusion proteins in transfected 293 cells and C6 glioma cells was greatly reduced or abolished after mutation of the basic amino acids or deletion of the sequence containing the nuclear localization signal, and no nuclear staining was seen in the case of heparan sulfate and chondroitin sulfate proteoglycans that do not possess a nuclear localization signal, such as syndecan-3 or decorin (which is closely related in structure to biglycan). Transfection of COS-1 cells with an epitope-tagged glypican cDNA demonstrated transport of the full-length proteoglycan to the nucleus, and there are also dynamic changes in the pattern of glypican immunoreactivity in the nucleus of C6 cells both during cell division and correlated with different phases of the cell cycle. Our data therefore suggest that in certain cells and central nervous system regions, glypican and biglycan may be involved in the regulation of cell division and survival by directly participating in nuclear processes.
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PMID:Glypican and biglycan in the nuclei of neurons and glioma cells: presence of functional nuclear localization signals and dynamic changes in glypican during the cell cycle. 936 4

The cytotoxicity of alpha-particle-emitting endoradiotherapeutic compounds is of increasing interest because clinical evaluation of these potential therapeutic agents is commencing. Astatine-211 is a radionuclide with a 7.2-h half-life that emits 5.87 and 7.45 MeV alpha particles. In the present work, we have investigated the in vitro cytotoxicity of 211At-labeled chimeric monoclonal antibodies (mAbs) in monolayers of D-247 MG human glioma cells and SK-MEL-28 human melanoma cells. The mAbs studied were 81C6, reactive with the extracellular matrix antigen tenascin, Mel-14, directed against the cell membrane antigen proteoglycan chondroitin sulfate, and a nonspecific control mAb, TPS3.2. Cell uptake increased as a function of activity concentration after a 1-h exposure to the 211At-labeled mAbs. The retention of activity was also measured to calculate cumulative activity associated with the cells and the medium. The clonogenic survival as a function of activity concentration was linear in all cases with no detectable shoulder. Microdosimetric analyses were performed based on measured cell geometry, cumulative activity and Monte Carlo transport of alpha particles. Using 18 kBq/ml activity concentration and 1 h of incubation, a two to five times higher activity bound to the microcolonies was found for the specific mAbs compared to the nonspecific mAb. These calculations indicated that a survival fraction of 0.37 was achieved with 0.24-0.28 Gy for D-247 MG cells and 0.27-0.29 Gy for SK-MEL-28 cells. The microdosimetric cell sensitivity, z0, for D-247 MG cells was significantly lower than for SK-MEL-28 cells (0.08 compared to 0.15 Gy). For both cell lines, reduction in survival to 0.37 required an average of only 1-2 alpha-particle hits to the cell nucleus.
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PMID:The cytotoxicity and microdosimetry of astatine-211-labeled chimeric monoclonal antibodies in human glioma and melanoma cells in vitro. 945 95

Cytokines such as transforming growth factor-beta (TGF-beta) are thought to mediate escape from immune surveillance in human malignant glioma. Here, we report that ectopic expression of the small TGF-beta-binding proteoglycan, decorin, inhibits not only TGF-beta bioactivity but also TGF-beta 1 and TGF-beta 2 mRNA transcription and TGF-beta protein synthesis by human LN-18, LN-229, T98G and rat C6 glioma cells in vitro. Ectopic expression of decorin in C6 rat glioma cells results in strong inhibition of tumor formation in vivo. Decorin-expressing C6 gliomas grow initially but regress to very small residual tumors at 12 weeks after implantation whereas all control animals die or have to be killed within 4 weeks. Decorin-expressing tumors show a four-fold increase of infiltration by activated T cells and a 1.6-fold increase in total B and T cells. Chronic steroid-mediated immunosuppression abrogates the inhibitory effects of decorin gene transfer. We conclude that decorin-induced inhibition of TGF-beta release by glioma cells significantly enhances antiglioma immune responses in vivo. Clinical evaluation of decorin gene therapy for human malignant gliomas may be warranted.
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PMID:Decorin gene transfer-mediated suppression of TGF-beta synthesis abrogates experimental malignant glioma growth in vivo. 993 Mar 19

Bispecific antibodies (bsAbs) directed to tumor-associated antigens and to receptors mediating T-cell activation, such as the TCR/CD3 complex and the co-stimulatory CD28 molecule, are capable of activating T cells at the surface of tumor cells, resulting in tumor-cell killing. Here we report the pre-clinical characterization of bispecific-antibody fragments (bsFab2) directed to 2 different glioblastoma-associated antigens: the EGF receptor (EGFR) and a chondroitin-sulfate proteoglycan (CSPG). Using cultured glioblastoma cells expressing both target antigens, we found that the ability of anti-tumor x anti-CD28 bsFab2 to mediate "targeted T-cell co-stimulation" is superior for constructs targeting the CSPG molecule, correlating with an approximately 6-fold higher expression level of this antigen on the cell surface. In contrast, bsFab2 triggering CD3 are more effective if they contain EGFR-target specificity. This indicates that the activity of anti-tumor x anti-CD3 constructs critically depends on properties of the antigen other than its expression level on the cell surface, e.g., its mobility in the membrane. These findings prompted us to use EGFR-targeting bsFab2 in an ongoing clinical trial with glioma patients.
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PMID:Role of target antigen in bispecific-antibody-mediated killing of human glioblastoma cells: a pre-clinical study. 993 65

Ectopic expression of the proteoglycan, decorin, abrogates the growth of experimental C6 gliomas in the rat. Since gliomas release large amounts of transforming growth factor-beta (TGF-beta) and since decorin is a TGF-beta antagonist, decorin gene transfer-mediated abrogation of glioma growth in vivo may involve enhanced immunogenicity of the tumor cells. Here, we report that human glioma cells stimulate alloreactive immune responses when engineered to express decorin whereas parental glioma cells are non-immunogenic in vitro. The alloreactive immune response is mediated by CD8+ and CD4+ T cells as well as by NK cells. The immunosuppression exerted by parental or mock-transfected glioma cells is mediated by soluble factors and can in part be mimicked by exogenous TGF-beta. However, neutralizing anti-TGF-beta antibodies do not reverse glioma-mediated immunosuppression, suggesting that decorin abrogates glioma-induced immune cell inhibition by interfering with the activity of other, so far unidentified glioma-secreted mediators. We conclude that enhanced immunogenicity may mediate the antineoplastic effects of decorin gene therapy for malignant glioma but that factors other than TGF-beta may be responsible for glioma-induced immunosuppression.
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PMID:TGF-beta-independent induction of immunogenicity by decorin gene transfer in human malignant glioma cells. 1009 8

Decorin is a member of the small leucine-rich proteoglycan (SLRP) gene family that has recently become a focus in various areas of cancer research. The decorin protein consists of a core protein and a covalently linked glycosaminoglycan chain. Decorin binds to collagens type I, II and IV in vivo and promotes the formation of fibers with increased stability and changes in solubility. Further, the decorin core protein binds to growth factors, including transforming growth factor-beta (TGF-beta), to other intercellular matrix molecules such as fibronectin and thrombospondin, and to the decorin endocytosis receptor. Decorin may directly interfere with the cell cycle via the induction of p21WAF1/CIP1 (p21), a potent inhibitor of cyclin-dependent kinases (CDKs). Here, we discuss interactions of decorin with TGF-beta and with p21, both of which are relevant to carcinogenesis and tumor progression. TGF-beta is released by tumors of various histogenetic origins and promotes immunosuppression in the host and tumor immune escape by induction of growth arrest and apoptosis in immune cells, by downregulation of MHC II antigen expression and by changes in the cytokine release profiles of immune and tumor cells. Moreover, TGF-beta may modulate tumor growth in an autocrine and paracrine fashion, may mediate drug resistance, and may facilitate tumor angiogenesis. Decorin binds to TGF-beta, thus inhibiting its bioactivity, and is a direct or indirect negative modulator of TGF-beta synthesis. Ectopic expression of decorin results in the regression of rat C6 gliomas, an antineoplastic effect attributed to the reversal of TGF-beta-induced immunosuppression. On the other hand, de novo expression of decorin in colon cancer cells and some other tumor cells, even though not in glioma cells, results in an upregulation of p21 expression and a cell cycle arrest, presumably in a TGF-beta-independent manner. Decorin expression is downregulated in many tumors but upregulated in the peritumoral stroma. By virtue of its growth regulatory and immunomodulatory properties, decorin promises to become a novel target for the experimental therapy of human cancers.
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PMID:Transforming growth factor-beta and p-21: multiple molecular targets of decorin-mediated suppression of neoplastic growth. 1038 66

The early events in neoplastic transformation can be understood only by comparison of the neoplastic cell with its nontransformed counterpart. The most common central nervous system gliomas traditionally are thought to arise from mature astrocytes and oligodendrocytes. We examined the possibility that gliomas arise from a population of glia that has properties of oligodendrocyte progenitors. These glial cells express the NG2 chondroitin sulfate proteoglycan and the alpha receptor of platelet-derived growth factor in vivo. We identified NG2 and the alpha receptor of platelet-derived growth factor expression in tissue from seven of seven oligodendrogliomas, three of three pilocytic astrocytomas, and one of five glioblastoma multiforme. These data provide evidence that glial tumors arise from glial progenitor cells. Molecules expressed by these progenitor cells should be considered as targets for novel therapeutics.
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PMID:Expression of oligodendrocyte progenitor cell antigens by gliomas: implications for the histogenesis of brain tumors. 1046 13

Decorin gene therapy for experimental malignant glioma is thought to involve antagonism of immunosuppression induced by glioma-derived transforming growth factor-beta (TGF-beta). TGF-beta is chemotactic for cells of the monocyte macrophage lineage but inhibits their functional activity in many in vitro paradigms. Here, we examined changes in the patterns of microglial infiltration of rat C6 gliomas expressing a decorin transgene. We find that the number of OX42/ED-1-positive microglial cells is reduced rather than enhanced in the presence of decorin. Decorin-expressing gliomas contain lower numbers of MHC class II antigen-expressing microglial cells whereas the relative frequency of MHC I immunoreactivity among microglial cells is increased. Interestingly, the reduction of TGF-beta levels in the tumors by decorin is associated with the de novo expression of inducible nitric oxide synthase (iNOS) in a minority of microglial cells. These data suggest that microglial cells do not participate in the regression of decorin-expressing rat C6 gliomas.
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PMID:Inhibition of experimental rat glioma growth by decorin gene transfer is associated with decreased microglial infiltration. 1049 72

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