UMLS:C0017636 - FACTA Search

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Query: UMLS:C0017636 (glioblastoma)
18,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To document over-expression of proto-oncogenes in tumors, it is necessary to determine the level of expression in the progenitor normal tissue. These studies compare the levels of nuclear transcription of a series of growth-factor related genes and proto-oncogenes in human glioblastoma cell lines with those in three normal glial cell populations. The unusual finding was that levels in the three normal glial cell populations varied considerably for several genes and thus overexpression of a specific gene in a tumor cell when compared to just one normal glial cell population would not necessarily represent overexpression. In this study, we compared the level of 17 genes in 7 tumors to the highest level of each gene found in any of three normal glial cell populations. Over-expression of PDGF-B in 4/7 glioblastoma cell lines, EGFR in 1/7, neu in 1/7 IGF-2 in 1/7 and ros in 2/7 was observed. The variation observed in the normal glial cell populations emphasizes the possibility that the normal glial cell populations represent different glial cell lineages and/or stages of differentiation and that the tumors could have arisen from different normal glial cells. Matching lineages of normal and tumor cells, probably by monoclonal antibody reactions, may be required to accurately define over-expression.
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PMID:Transcriptional patterns of growth factors and proto-oncogenes in human glioblastomas and normal glial cells. 132 85

The neu gene in rat neuro/glioblastoma was found to be activated by a single point mutation in the DNA sequence encoding the transmembrane region of the neu-encoded p185 protein. The human homologue of the rat neu gene, termed c-erbB-2 or HER-2, can also be activated in vitro by a similar mutation in the corresponding region. Although the human neu gene was shown to be amplified/overexpressed in a large portion of human breast and ovarian cancer, no reports indicate that the human neu gene is activated by a point mutation in human tumor. To study the possible point mutation of neu gene in human tumors, we characterized the genomic structure in the transmembrane region of human neu gene, which in turn allowed us to determine DNA sequence in this region directly following DNA amplification by polymerase chain reaction. We analyzed 7 tumor cell lines (2 breast cancer, 1 neuroblastoma, 1 rhabdomyosarcoma, and 3 glioma) and 11 tumor tissue samples (8 breast and 3 ovarian cancers). No mutation was found in the transmembrane region of human neu gene. Our results suggest that unlike the rat neuro/glioblastoma, the single point mutation in the transmembrane region of the human neu gene is a rare event in human tumors. In this study, we developed a technique for direct DNA sequencing of the transmembrane region of the human neu gene. This technique makes it possible to screen a large number of tumor samples.
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PMID:Direct sequencing analysis of transmembrane region of human Neu gene by polymerase chain reaction. 220 83

To determine whether the amplification of the proto-neu oncogene (also called c-erbB-2) plays a role in tumorigenicity, we previously generated an NIH 3T3 transfectant (DHFR/G-8) that carried the amplified proto-neu gene. The DHFR/G-8 cells exhibited normal morphology. Their growth curve was similar to that of NIH 3T3 cells but was different from that of the B104-1 cell, and NIH 3T3 transfectant that carries the activated neu oncogene. When injected into nude mice, B104-1 cells produced tumors within 2 weeks, whereas the DHFR/G-8 cells did not produce tumors until 3 months after injection, and the NIH 3T3 cells did not produce any tumors even after 3 months. The tumors produced by the injection of the DHFR/G-8 cells were excised and grown in culture. The cells derived from the tumors were of transformed morphology and highly tumorigenic. The DNAs from the tumor cells were transfected into NIH 3T3 cells. The transfection resulted in foci on the NIH 3T3 monolayer. Southern analysis indicated that the foci derived from the transfection contained the neu gene. Using oligonucleotides as probes, the neu gene in the foci was found to carry a single-point mutation identical to the one previously found in the rat neuroblastoma and glioblastoma induced by the ethylnitrosourea. We conclude that the DNA region encoding the transmembrane domain of neu is a hot spot for converting the proto-neu gene into an activated oncogene and that amplification of the proto-neu gene facilitates mutation of the hot spot.
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PMID:Amplification of the proto-neu oncogene facilitates oncogenic activation by a single point mutation. 256 34

The protein encoded by the neu protooncogene (human gene symbol NGL for neuro/glioblastoma-derived) is a member of the surface receptor/tyrosine kinase family. Though its structure suggests that it can transduce a transmembrane signal, neither its extracellular ligand nor its critical intracellular substrates are known. To explore the functional properties of the protein encoded by neu, we created a fusion gene that joins the cytoplasmic domain of neu to the extracellular portion of an immunoglobulin heavy chain. The localization of the fusion polypeptide can then be controlled by coexpression with immunoglobulin light chain. In the absence of light chain, the heavy chain-neu polypeptide is expressed intracellularly and has no transforming activity. By contrast, in the presence of light chain the fusion polypeptide is expressed at the cell surface and produces tumorigenic foci. Thus, transformation apparently requires expression at the cell surface, where the neu intracellular domain can interact with components that are localized to the plasma membrane. The fusion protein is active in cellular transformation when the transmembrane domain is derived either from neu or from immunoglobulin, indicating that the neu transmembrane domain is not specifically required for transformation, although neu activation in tumors is known to result from a point mutation in this region. The extracellular immunoglobulin heavy and light chain domains of the fusion protein form a functional binding site that allows antigen to modulate its activity, reversing the transforming effect.
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PMID:neu protooncogene fused to an immunoglobulin heavy chain gene requires immunoglobulin light chain for cell surface expression and oncogenic transformation. 290

The MOCH-1 glial cell line, which was derived from a glioblastoma taken from the brain of a MBP/c-neu transgenic mouse, was used as a model for studying the plastic nature of gliomas in culture. Fifteen MOCH-1 clones were derived and characterized under different growth conditions via Western blot analysis and immunocytochemical staining using a panel of antibodies specific for major myelin markers and glial fibrillary acidic protein. In low serum conditions, the clones resemble immature oligodendrocytes and express only immature oligodendrocyte markers. When placed in serum-free chemically defined medium (CDM), nine clones do not change their phenotypes, while five variably express myelin markers. One clone, 4C8, differentiates into mature, membrane sheet-bearing oligodendrocyte-like cells and expresses major myelin markers in amounts and distributions similar to cultured primary oligodendrocytes. Our data show that 4C8 can reversibly switch from an oligodendrocyte-like phenotype to a reactive astrocyte-like phenotype, depending upon the presence of serum and other factors in different growth media. Our data indicate that serum "pushes" 4C8 into the astrocyte-like phenotype, while serum-free CDM "pushes" 4C8 into the oligodendrocyte-like phenotype. Furthermore, a population of mixed phenotypes results when the astrocyte-like 4C8 cells are placed in serum-free CDM. To our knowledge, this is the first report to show that by altering environment, a "mixed glioma" can arise from a homogeneous population of glial tumor cells. It is therefore possible that glial tumor cells in vivo may be induced to undergo similar phenotypic changes when they are exposed to different environmental signals in the central nervous system.
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PMID:A clone of the MOCH-1 glial tumor in culture: multiple phenotypes expressed under different environmental conditions. 759 58

A cell line, GBM, was established from a human malignant glioblastoma and was characterized with particular reference to its response to conventional drugs. The GBM cell line exhibited a 73 +/- 7 h doubling time in monolayer cultures. Expression of glial fibrillary acidic and S-100 proteins was observed. Karyotype analysis of GBM cells at early passages revealed the presence of two near-triploid clones (A and B) with multiple chromosome rearrangements; a 100% frequency for clone B was observed in the established cell line. GBM cells had tumorigenic properties, since the s.c. injection of cultured cells into nude mice gave rise to slowly growing tumors. The morphology of GBM cells was retained during in vitro and in vivo passages, as judged by light microscopy. GBM cells were relatively resistant to most conventional drugs; among the tested drugs, only taxol exhibited a marked cytotoxic effect comparable to that found in cells of a different tumor type. GBM cells were found positive for the epidermal growth factor receptor, HER2-neu and P-glycoprotein by flow cytometry of cells labelled with monoclonal antibodies. In spite of the expression of relatively high gamma-glutamyltransferase activity, the intracellular glutathione level was comparable to that of other chemosensitive tumor cells. This glioblastoma cell line is a suitable model for the identification and preclinical studies of new agents and provides an additional system to explore the molecular basis of the intrinsic drug resistance of glioblastoma.
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PMID:Characterization of an established human, malignant, glioblastoma cell line (GBM) and its response to conventional drugs. 792 29

Fresh suspensions of human glioblastoma multiforme were preincubated in the plant lectin Phaseolus vulgaris leucoagglutinin (PHAL) and implanted into cortical pockets in adult rat brain. Brains were investigated periodically over 30 postoperative days and the migration of the human glioblastoma cells was traced with anti-PHAL immunofluorescence or the overexpression of human specific p185c-neu a specific marker of a class of human malignant astrocytoma cells. The principal pathway of migration of the implanted human cells in the rat brain was ventrally through cortical gray matter and into the corpus callosum, with rapid lateral distribution in this and other parallel and intersecting white matter fascicles. Human glioblastoma cells also migrated on basement membrane lined blood vessels, pia-glia membrane and spaces of Virchow-Robin, as well as the subependymal space of the ventricles. These paths of migration of human glioblastoma cells in the rat brain are consistent with the pathways of spread of glioblastoma in the human brain as described by Scherer over 50 years ago, indicating that multifocal malignant astrocytomas have common migratory pathways in mature mammalian brain.
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PMID:Migration of human malignant astrocytoma cells in the mammalian brain: Scherer revisited. 811 80

A glioblastoma that retained glial fibrillary acidic protein (GFAP) in culture has a break in the long arm of chromosome 17 at band 17q11.2. DNA inserted at this breakpoint came from chromosome bands 3p21, 3q23, 16q11.2, and 22q11.2. These chromosome fragments were inserted in band 17q11.2 proximal to the neurofibromatosis-1 (NF-1) gene and neu (HER2; erbB2) oncogene loci. The glioblastoma also contained a reciprocal translocation between 16p12 and 20p12. These structural abnormalities, previously undescribed in gliomas, were demonstrated by high-resolution chromosome banding, microdissection, and fluorescence in situ hybridization (FISH). Numerical changes typical of glioblastoma were present: gain of chromosome 7 and losses of chromosomes 10, 13, and 22. The complex chromosome origin of DNA inserted in this glioma chromosome is described. The association of two infrequent events in this single glioblastoma line, this complex insertion and retention of GFAP expression, is not likely to be a chance occurrence. It raises the possibility of an association between the two events.
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PMID:Chromosome breakpoint at 17q11.2 and insertion of DNA from three different chromosomes in a glioblastoma with exceptional glial fibrillary acidic protein expression. 864 40

Mutant Epidermal Growth Factor Receptor (EGFR) oncoproteins lacking most of subdomains I and II of the extracellular region, a deletion which includes most of the first of two cysteine-rich sequences, have been observed in multiple human epithelial tumors, including malignant gliomas. These EGFR oncoproteins, designated deltaEGFR or EGFRvIII, confer increased tumorigenicity in vivo and are often coexpressed with full-length EGFR in human tumors. We have expressed an ectodomain-derived, carboxyl-terminal deletion mutant of the p185neu oncogene (T691stop) in human glioblastoma cells coexpressing endogenous EGFR and activated deltaEGFR oncoproteins. The p185neu ectodomain-derived mutant forms heterodimers with deltaEGFR proteins and reduces the phosphotyrosine content and kinase activity of deltaEGFR monomers. As a consequence of T691stop neu expression and surface localization, cell proliferation in conditions of full growth and reduced serum and anchorage-independent growth in soft agar was reduced in glioblastoma cells expressing either endogenous EGFR alone or coexpressing EGFR and elevated levels of deltaEGFRs. T691stop neu mutant receptors abrogate the dramatic growth advantage conferred by deltaEGFR in vivo, suggesting that physical associations primarily between subdomains III and IV of the p185neu and EGFR ectodomains are sufficient to modulate signaling from activated EGFR complexes. Receptor-based inhibitory strategies exploit the thermodynamic preference for erbB ectodomains to heterodimerize, thereby creating erbB receptor assemblies which are defective in signaling and do not internalize. Pharmaceuticals which mimic the p185neu ectodomain may therefore have important therapeutic applications in advanced human malignancies expressing erbB receptors.
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PMID:Inhibition of a naturally occurring EGFR oncoprotein by the p185neu ectodomain: implications for subdomain contributions to receptor assembly. 952 62

We used a genetic approach to characterize features of mitogen-activated protein kinase (MAPK) activation occurring as a consequence of expression of distinct erbB receptor combinations in transformed human cells. Kinase-deficient erbB proteins reduced epidermal growth factor (EGF)-induced tyrosine phosphorylation of endogenous Shc proteins and also reduced immediate and sustained EGF-induced ERK MAPK activities in human glioblastoma cells, although basal ERK MAPK activities were unaffected. Basal and EGF-induced JNK and p38 MAPK kinase activities were equivalent in parental cancer cells and EGFR-inhibited subclones. When ectopically overexpressed in murine fibroblasts and human glioblastoma cells, a constitutively activated human EGF receptor oncoprotein (deltaEGFR) induced EGF-independent elevation of basal ERK MAPK activity. Basal JNK MAPK kinase activity was also specifically induced by deltaEGFR, which correlated with increased phosphorylation of a 54-kDa JNK2 protein observed in deltaEGFR-containing cells. The JNK activities in response to DNA damage were comparably increased in cells containing wildtype EGFR or deltaEGFR. Consistent with the notion that transforming erbB complexes induce sustained and unregulated MAPK activities, coexpression of p185(neu) and EGFR proteins to levels sufficient to transform murine fibroblasts also resulted in prolonged EGF-induced ERK in vitro kinase activation. Transforming erbB complexes, including EGFR homodimers, deltaEGFR homodimers, and p185(neu)/EGFR heterodimers, appear to induce sustained, unattenuated activation of MAPK activities that may contribute to increased transformation and resistance to apoptosis in primary human glioblastoma cells.
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PMID:Sustained mitogen-activated protein kinase activation is induced by transforming erbB receptor complexes. 1054 32

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