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)

Our aim has been to understand the features of erbB receptor homo- and heterodimer assembly to develop approaches to disrupt receptor activation. We have developed a general approach to cause erbB receptor-specific trans inhibition of human neoplasia. The clonal progression of human astrocytomas to a more malignant phenotype often involves the amplification and overexpression of the epidermal growth factor receptor (EGFr) gene. We have selectively targeted the EGFr in human glioblastoma cells with kinase-deficient mutants of the erbB family derived from the ectodomain of the Neu oncogene that are able to form heterodimers with EGFr and inhibit EGFr-dependent phenotypes. In EGFr-positive U87MG human glioblastoma cells, expression of the Neu ectodomain inhibits EGF-, but not platelet-derived growth factor-, induced DNA synthesis; inhibits cell proliferation in the presence of EGF, but not platelet-derived growth factor; inhibits the ability of U87MG to form colonies in soft agar; and inhibits transforming efficiency in athymic mice. These studies establish that EGFr-mediated signal transduction is important in the maintenance of malignant glioma, and that trans receptor inhibition is a novel way to abrogate abnormal growth of these tumors. Neu ectodomains will be useful in determining the manner in which the EGFr contributes to glial tumorigenesis and in the design of pharmaceuticals that disable erbB family oncoproteins. In addition, these studies provide a rationale for the application of the Neu ectodomain in gene therapy approaches to human malignant glioma and, potentially, to other systemic epithelial malignancies expressing erbB family receptors.
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PMID:Trans receptor inhibition of human glioblastoma cells by erbB family ectodomains. 909 79

High grade gliomas may have amplified expression of the epidermal growth factor receptor (EGFR) gene c-erb-B, which often is associated with increased expression of transmembrane EGFR. The purpose of the present study was to develop a method for labeling EGF with 99mTc and to determine whether the resulting radioligand would localize, following intracerebral injection, in rats bearing EGFR-positive gliomas. EGF has a relatively low molecular mass (approximately 6 kDa) compared to monoclonal antibodies, and this has allowed smaller bioconjugates, which should diffuse more rapidly within the brain and more effectively target disseminated glioma cells, to be constructed. In the present study, EGF has been labeled with either 131I or 99mTc, and in vitro uptake of the resulting radioligand has been investigated using C6EGFR rat glioma cells, which had been transfected with the EGFR gene. Cellular uptake of 131I radioactivity peaked after approximately 30 min of incubation with [131I]EGF, following which time it declined, while 99mTc radioactivity continued to increase over a 6 h incubation with [99mTc]-EGF. To determine if radiolabeled EGF had in vivo tumor-localizing properties, C6EGFR glioma cells were implanted stereotactically into the brains of Fischer rats. Four weeks later, either 99mTc- or 131I-labeled EGF was injected intracerebrally into normal or glioma-bearing animals using the same stereotactic coordinates. External gamma scintigraphy revealed that 131I radioactivity disappeared rapidly from the brain regions of tumor-bearing animals compared to 99mTc, approximately 50% of which remained in the tumor for up to 12 h. In contrast, only approximately 20% remained in the brains of non-tumor-bearing animals after 6 h. These studies are the first to describe a method for radiolabeling EGF with 99mTc and to detect it by external scintigraphy in the brains of tumor-bearing animals.
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PMID:Radiolabeling of epidermal growth factor with 99mTc and in vivo localization following intracerebral injection into normal and glioma-bearing rats. 917 33

Enhanced accumulation of monoclonal antibodies in tumor tissue has been observed as a result of external beam irradiation (EBR). This effect was mainly attributed to increased vascular leakage due to unspecific radiation damage of vascular endothelial cells. The aim of this study was to investigate the effects of EBR on expression and antibody-binding of epidermal growth-factor receptor (EGF-R) in human glioma cells in-vitro. High-grade glioma cells were irradiated with conventional x-rays (0-3600 Rad) and surface binding, internalization and radiocytotoxicity of 125I-labeled monoclonal antibody (MAb) 425, specific for human EGF-R, was tested. EBR showed a short-term dose and time dependent increase of specific MAb 425 binding and internalization in receptor positive cell lines U87-MG and A1207. This effect was probably due to a mitotic block and an increase in cellular volume. Combination of EBR and 125I-425 showed additive effects on cell vitality/survival and was more pronounced in contact inhibited cells as compared to cells growing in a log-phase. We assume that cells exposed to 125I-labeled MAb 425 are only able to accumulate a critical number of DNA double-strand breaks when the doubling-time is prolonged e.g. under contact-inhibition or radiation induced mitotic blockade. We conclude that EBR has no negative effects on EGF-R expression, MAb-binding and internalization. The combination of EBR and 125I-MAb 425 enhances cytotoxic efficacy and thus supports adjuvant use in the clinical management of high-grade glioma.
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PMID:External beam radiation enhances antibody mediated radiocytotoxicity in human glioma cells in vitro. 917 36

Invasive proliferation is a critical biological characteristic of gliomas. We evaluated the activities of hepatocyte growth factor (HGF) on proliferation and motility of glioma cells, comparing them with the effects of other growth factors (EGF, bFGF, PDGF-BB, TGF-beta 1). Seven primary culture lines all expressed c-met and HGF mRNA, and secreted HGF. HGF stimulated 3H-thymidine uptake of every glioma cell line (30 to 70% upregulation). Boyden chamber assay and scattering assay revealed that HGF promoted cell motility with chemokinetic and strong chemotactic activities. Concentric circle assay showed that HGF promoted two-dimensional expansion (proliferation and motility) most strongly among the growth factors studied. Further, we analyzed 23 paraffin-embedded sections of surgically resected gliomas (7 grade II, 8 grade III, and 8 grade IV) by immunohistochemistry. Expression of HGF and Met increased with malignant progression of gliomas, suggesting that gliomas stimulated their invasive proliferation by autocrine HGF production. Neurons and vasculature were HGF-positive, and Met-positive glioma cells gathered around them. The data indicate that neurons and vasculature, which are the main tracks of glioma invasion, augment chemotactic invasion and proliferation of gliomas by paracrine HGF secretion. Clearly HGF plays a critical role in invasive proliferation of glioma cells and it is therefore a candidate target of therapeutic intervention.
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PMID:Modulation of motility and proliferation of glioma cells by hepatocyte growth factor. 926 34

Protein tyrosine kinases are critical enzymes in regulating cellular growth and differentiation and are also deeply involved in oncogenesis since they are frequently activated in a variety of human cancers. Novel compounds that inhibit epidermal growth factor receptors (EGF-R) with high specificity and potency were developed, and their antitumor effects on EGF-R overexpressing cells and in vivo tumor models were demonstrated. Novel compounds that preferentially inhibit human glioma cells expressing truncated rather than wild-type EGF-R were also developed. Tyrphostin analogs which inhibit angiogenesis and thereby suppress tumor cell growth were also identified by screening inhibitors of Flk-1 tyrosine kinase.
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PMID:[Recent advances in development of antitumor tyrosine kinase inhibitors]. 930 52

We have detected a tyrosine phosphorylated 200 kDa glycoprotein (gp200) on the surface of two tumour cells of neural origin, namely A1235 glioma and A172 glioblastoma. gp200 (polypeptide mass of 165-170 kDa) has all the structural features of a growth factor receptor and it appears to display high basal tyrosine kinase activity, a characteristic associated with transforming proteins. Another interesting feature of gp200 is that it is immunologically highly related to the EGF receptor (polypeptide mass of 135 kDa), a member of the erb-B family of proteins; however, it lacks EGF binding activity. gp200 also differs from all other EGF-receptor-related oncogenic proteins, namely erb-B-2, erb-B-3 and erb-B-4 gene products, and hence appears to be yet another member of the erb-B family of proteins. This is further strengthened by the fact that both gp200 and the EGF receptor are also recognized by a conformation-specific anti-peptide antibody to the cytoplasmic domain of the beta-type PDGF receptor. In the EGF- and the PDGF receptors, this peptide epitope is cryptic and receptor phosphorylation unmasks this site [Panneerselvam K, Reitz H, Khan S A, and Bishayee S (1995) J Biol Chem 270, 7975-7979] indicating that this epitope might be important in biological message transmission. In this context, the expression of a novel EGF-receptor-related 200 kDa protein with high basal kinase activity in certain tumour cells of neural origin and the fact that it contains an important peptide epitope suggest its possible role in normal and abnormal cell growth.
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PMID:A novel 200 kDa plasma membrane glycoprotein with high basal tyrosine kinase activity in tumour cells. 934 24

The activation of autocrine loops involving proto-oncogene related receptor tyrosine kinases has led to the analysis of a large number of growth factor systems in human glioma specimens and cell lines. The ErbB-2 system, also called HER-2 or neu, is analogous to the epidermal growth factor receptor system (EGF-R, ErbB-1). Neuregulins consist of a large family of proteins arising from alternative mRNA splicing of a single gene located at 8p22-p11. Activation of ErbB-2 by neuregulins occurs in heterodimeric complexes with ErbB-3 and ErbB-4. A panel of human glioma cell lines, which had previously been analyzed for ErbB-2 expression, was examined for ErbB-3 and ErbB-4 expression. Coordinate expression of ErbB-2, -3 or -4 was not observed in these cell lines. Despite the presence of a complete system capable of signaling in about half the cell lines, no constitutive activation of ErbB-2, -3 or -4 was observed, and autophosphorylation of ErbB-2 in response to heregulin was observed only in one cell line from the panel, NCE-G84. Moreover, the addition of recombinant heregulin or antibodies capable of disrupting ErbB-2/ErbB-3 complexes had no effect on cell proliferation. We conclude that the role of neuregulins and its receptors in the control of glioma cell proliferation may be limited or may be context dependent on in situ conditions which are lost in vitro. Alternatively, neuregulins may be involved in cell differentiation or survival in the central nervous system. Data supporting these conclusions are described in more detail herein.
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PMID:Heregulins and the ErbB-2/3/4 receptors in gliomas. 944 30

It has become clear that disruptions in the genome of somatic cells play a causative role in tumour development. We know that the ultimate formation of a malignancy is the result of a multistep process in which the functional loss and/or the altered or increased expression of genes play important roles. One such family of genes are the oncogenes, encoding protein products with mainly growth stimulating effects. Platelet-derived growth factor (PDGF) belongs to the family of oncogenes. It is likely that PDGF plays an essential role in the development of at least a subgroup of malignant astrocytic tumours that do not contain amplification of the EGF-receptor. The expression of PDGF alpha-receptors is related to tumour progression in these tumours, and some of the most malignant tumours were shown to contain amplification of the PDGF alpha-receptor. It is also clear now from several experimental studies that PDGF can drive the transformed phenotype, and that PDGF antagonists, by blocking the PDGF autocrine pathway revert the transformed phenotype of certain tumour cells. Because of the findings that receptor protein tyrosine kinases such as the EGF- and the PDGF-receptor play a crucial role in the development of gliomas, it is possible that inhibitors of the phosphorylation of the protein tyrosine kinases will be future candidates for glioma therapy. They might be able to at least delay the development of a fully malignant glioma. The role of PDGF in other tumours of neuroglial origin in the central nervous system has not been studied as extensively as its role in gliomas. Recent data suggest that also for the primitive neuroectodermal tumours overexpression of the PDGF alpha-receptor is related to malignancy of the tumours. For other tumours, such as neuroblastomas, PDGF exerts a differentiating rather than a mitogenic function and is an important survival factor. Further studies are needed to elucidate the role of PDGF in these non-glial primary brain tumours. Moreover, for a complete understanding of the role of PDGF in malignancies of the CNS, it is important to explore its function in the development of the normal CNS further.
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PMID:Platelet-derived growth factor (PDGF) in primary brain tumours of neuroglial origin. 958 5

The early incidence of p53 mutation in astrocytomas suggests that it plays an important role in astrocyte transformation. Astrocytes isolated from homozygous p53 knockout mice grow rapidly, lack contact inhibition, and are immortal. Here we tested whether the loss of p53 is sufficient for progression to tumorigenicity of astrocytes. We grew primary astrocytes under three conditions for over 120 population doublings and assessed their antigenic phenotype, chromosome number, and expression of glioma-associated genes as well as their ability to form colonies in soft agarose and tumors s.c. and intracranially in nude mice. Under two conditions (10% FCS and 0.5% FCS plus 20 ng/ml EGF), cells acquired the ability to form colonies in soft agarose and tumors in nude mice, and this was accompanied by the expression of genes, including epidermal growth factor receptor, platelet-derived growth factor receptor alpha and beta, protein kinase Cdelta, and vascular endothelial growth factor, which are known to be aberrantly regulated in human astrocytomas. Under the third condition (0.5% FCS plus 10 ng/ml basic fibroblast growth factor), astrocytes gained the ability to form colonies in soft agarose and had abnormal chromosome numbers similar to cells in the first two conditions but did not form tumors in nude mice or overexpress glioma-associated genes. These data provide experimental evidence for the idea that the malignant progression initiated by the loss of p53 may be subject to modulation by extracellular environmental influences.
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PMID:Malignant transformation of p53-deficient astrocytes is modulated by environmental cues in vitro. 1007 1

VEGF (vascular endothelial growth factor), one of the most potent angiogenic factors, has recently been identified as an inducer of neoangiogenesis in many tumors including gliomas. VEGF itself appears to be regulated through different pathways. Since malignant gliomas frequently show EGF receptor amplification and express IL-1, a pivotal regulatory cytokine involved in angiogenesis, we analyzed interactions between EGF/EGF receptor and IL-1/IL-1 receptor and VEGF in the established glioblastoma cell lines U-87 MG and A-172. Basal VEGF expression was an order of magnitude higher in U-87 MG compared to A-172. IL-1 caused a fast and strong increase of VEGF secretion in U-87 MG which appeared to harbor an intracellular VEGF pool for enhanced exocytosis. The IL-1 receptor antagonist (IL-1-ra) reversed this effect suggesting an IL-1 receptor-associated mechanism. In contrast, VEGF secretion could not be increased by exogenous IL-1 exposure in A-172, which apparently lacked an intracellular VEGF pool for augmented exocytosis. However, IL-1-ra treatment alone caused a significant reduction of basal VEGF secretion in both U-87 MG and A-172. This suggests that baseline secretion of VEGF involves IL-1 receptor activation by endogenously produced IL-1. EGF also stimulated the secretion of VEGF into the cell supernatant. However, this effect, observed in both U-87 MG and A-172, was delayed and only occurred following replenishment of the intracellular VEGF pool. EGF upregulated the amount of VEGF mRNA. In general, the effects of IL-1 and EGF on VEGF were additive, suggesting independent mechanisms. Since IL-1 appears to be involved in VEGF secretion in glial tumors through an autocrine/paracrine mechanism, recombinant human IL-1-ra may evolve as a new agent for anti-angiogenic glioma therapy.
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PMID:Differential control of VEGF synthesis and secretion in human glioma cells by IL-1 and EGF. 1057 18

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