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)

The p53 gene, located on chromosome 17p13.1, may be important in the pathogenesis of human neuroepithelial tumors, because it is a tumor suppressor gene and genetic alteration is essential for certain human cells to acquire the neoplastic phenotype. The structure and expression of the p53 gene were investigated in cultured human glioma cells and biopsied specimens of neuroepithelial tumors. Immunocytochemical examination of p53 gene expression revealed positive nuclear staining in six of seven glioma cell lines tested. Sodium dodecyl sulfate-polyacrylamide gel electrophoretic analysis demonstrated unequivocal heterogeneity of migration rate in p53 bands. Pulse-chase analysis clearly showed an increased half-life of p53 in cultured human glioma cells. These abnormalities are presumably due to genetic alterations in the p53 gene. Nucleotide substitutions in exon 5, 7, or 8 of the p53 gene could be detected by polymerase chain reaction-single strand conformational polymorphic analysis in four of seven (57%) human glioma cell lines, and nine of 29 (31%) biopsied specimens of neuroepithelial tumors examined. The present results indicate that genetic alterations in the p53 gene are responsible for the tumorigenesis of at least some human neuroepithelial tumors.
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PMID:Altered structure and expression of the p53 gene in human neuroepithelial tumors. 128 Jul 73

Nerve growth factor (NGF) inhibited cellular DNA synthesis of rat T9 anaplastic glioma cells in a dose-dependent manner in the range of 0.5-5 micrograms/ml. Oxidation of 2 to 3 tryptophan residues of NGF, which had been known to destroy biological and immunological activity, greatly diminished its inhibitory effect on DNA synthesis. The inhibition was also abolished by anti-NGF IgG. Flow cytometric analyses and immunocytochemical assays of DNA synthesis using bromodeoxyuridine incorporation at various times during cell exposure to NGF revealed that the growth inhibition was attributable to gradual accumulation of growth-arrested cells at the G1 phase. Synthesis of nuclear regulatory proteins JUN and p53 was inhibited preferentially and progressively by NGF as inhibition of DNA synthesis increased.
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PMID:Growth inhibition of anaplastic glioma cells by nerve growth factor. 129 51

The establishment of a new glioma cell line, DBTRG-05MG, in a modified RPMI 1640 medium is described. The cells were derived from an adult female with glioblastoma multiforme who had been treated with local brain irradiation and multidrug chemotherapy; the tumor showed substantial change in histologic appearance compared to the original biopsy 13 mo. previously. The line has been successfully cryopreserved and passaged up to 20 times. The karyotype of the cells demonstrated it as a hypotetraploid line; the DNA index of 1.9 confirmed the karyotype analyses. By immunocytochemical analysis, the cell line reacted with polyclonal antibodies to vimentin, S100, and neuron specific enolase, reflecting its primitive neuroectodermal character. Positive immunostaining for epidermal growth factor receptor correlated with the excess of chromosome 7 seen in the karyotype. The cell line reacted negatively to antibodies against platelet-derived growth factor and its receptor, neuronal cell adhesion molecule, and glial fibrillary acidic protein. By flow cytometry, the cells were major histocompatibility class I antigen positive and class I antigen negative. Growth kinetic studies demonstrated an approximate population doubling time of 34 to 41 h and a colony forming efficiency of 71.4%. Western blot analysis showed the presence of low levels of normal-sized retinoblastoma protein. When compared to the patient's lymphocyte DNA, no loss of heterozygosity of the p53 tumor suppressor gene was observed in the DBTRG-05MG cell line DNA.
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PMID:Characterization of a continuous human glioma cell line DBTRG-05MG: growth kinetics, karyotype, receptor expression, and tumor suppressor gene analyses. 133 Oct 21

Results of numerous studies indicate that both activation of dominant oncogenes and inactivation of tumor suppressor genes play important roles in the genesis and progression of human gliomas. Activation of the epidermal growth factor receptor (erbB1 oncogene) as the result of gene amplification or rearrangement is the best established example of a dominant oncogene involved in glioma development. There is also suggestive evidence for activation of the ros oncogene in gliomas, and activation of a variety of other dominant oncogenes may be operative in individual tumors. Deletion studies suggest that inactivation of tumor suppressor genes on chromosomes 17p (probably the p53 gene), 10, 9p and 22 also play roles in genesis and progression of human gliomas. Additional work remains to be done to identify other dominant oncogenes and tumor suppressor genes involved in gliomas, and to determine how these various factors interact to cause disease.
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PMID:Oncogenes and glial tumors. 144 59

Human malignant gliomas (glioblastomas and anaplastic astrocytomas) are the most frequent brain tumors and are associated with a variety of genetic alterations including retinoblastoma (RB) and p53 gene mutations, loss of interferon alpha and beta (IFNA, IFNB) genes and lack of O6-methylguanine-DNA methyltransferase (MGMT) expression. Yet, in the studies performed to date, the relationship between these alterations has not been addressed. In this report, we have studied gene expression in 29 malignant glioma cell lines and have determined that, although loss of the interferon genes and loss of RB, p53 and MGMT mRNAs are frequent events, combinations of genetic alterations involving these four proven or putative tumor-suppressor genes are relatively infrequent. The exception was loss of RB mRNA, which may be associated with lack of MGMT mRNA.
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PMID:Lack of expression of tumor-suppressor genes in human malignant glioma cell lines. 150 94

Recent efforts have been directed at identifying and characterizing candidate tumor suppressor genes and the activities of oncogenes in primary brain tumors. The p53 gene mapping to region p13 of chromosome 17 has several characteristics as a tumor suppressor gene. The wild-type p53 protein, which is a transcriptional activator, may serve as a barrier to the progression of neoplastic processes, and alterations of p53 are involved in genesis of various cancers including astrocytomas. The NF1 gene, which is responsible for the susceptibility to neurofibromatosis type 1, has recently been isolated. This gene is assumed to play a role in the signal transduction pathway by interacting with the ras gene product. Recent observation revealed that the NF1 gene may regulate the neuronal differentiation, and the alteration in regulation of the NF1 transcript is potentially related to the progression of neuroectodermal tumors. Restriction fragment length polymorphism studies have also shown chromosomal losses associated with chromosome 9, 10 and 17. These losses of genetic material are suspected to involve loci near or at the p53 gene for chromosome 17, and neighboring the interferon genes on chromosome 9. Although no sublocalization of chromosome 10 deletions has been accomplished, all of these loci are thought to harbor tumor suppressor genes. Recent advances in oncogene research have focused on understanding the mechanisms of action of growth factors, growth factor receptors, and their substrates, particularly in glial oncogenesis. Fibroblast growth factor, epidermal growth factor, and their respective receptors are of particular interest. However, the ROS oncogene, which is expressed and rearranged in some glioma cell lines, may not be a critical factor in the development of gliomas.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Pathways of oncogenesis in primary brain tumors. 190

Recently a 17p deletion and p53 gene mutations were reported in human gliomas, but the relationship of the timing of p53 gene mutation and oncogenesis of glioma is still obscure. We examined eight pairs of primary and recurrent gliomas. Four of eight had a histological malignant transformation. In the group with malignant transformation, three out of four pairs had a mutation in the p53 gene only in recurrence. None of the mutations in either primary or recurrent glioma was detected in the group with no histological change. All point mutations occurred within the evolutionarily conserved regions. This suggests that the p53 mutations occurred during the progression and were important in the malignant transformation in the some kinds of gliomas.
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PMID:Timing and role of p53 gene mutation in the recurrence of glioma. 195 16

Thirty-eight WHO grade II astrocytomas and 10 malignant recurrent gliomas in these patients were examined for the presence of TP53 alterations. Seventeen/38 low grade astrocytomas and 6/10 malignant recurrent tumors harbored mutations of the gene detected by SSCP analysis and direct sequencing of PCR products. TP53 mutations in five out of six high grade mutant tumors were already present in the corresponding low grade astrocytomas. In two cases, TP53 mutations present in the low grade astrocytoma could not be demonstrated in the recurrent glioma. Immunohistochemistry with two different antibodies to the human TP53 protein revealed nuclear immunoreaction of tumor cells in 11/38 low grade and in 8/10 recurrent tumors. There was no correlation between the presence of TP53 alteration and clinical course. We conclude that, although TP53 mutations are detectable in a substantial fraction of WHO grade II astrocytomas, they do not appear to play a role in the malignant progression of these tumors and they are not of prognostic significance.
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PMID:TP53 alterations and clinical outcome in low grade astrocytomas. 752 Feb 69

We have previously suggested that tumor angiogenesis in human gliomas is regulated by a paracrine mechanism involving vascular endothelial growth factor (VEGF) and flt-1 (VEGF-receptor 1). VEGF, an endothelial-cell-specific mitogen, is abundantly expressed in glioma cells which reside along necrotic areas, whereas flt-1, a tyrosine-kinase receptor for VEGF, is expressed in tumor endothelial cells, but not in endothelial cells in normal adult brain. Recently, a second tyrosine-kinase receptor which binds VEGF with high affinity, designated KDR or flk-1, has been described. We performed in situ hybridization for VEGF mRNA, flt-1 mRNA and KDR mRNA on serial sections of normal brain, low-grade and high-grade glioma specimens. We show that KDR mRNA is co-expressed with flt-1 in vascular cells in glioblastoma but not in low-grade glioma. Since flt-1 and KDR are not expressed in endothelial cells in the normal adult brain, the coordinate up-regulation of 2 receptors for VEGF appears to be a critical event which controls tumor angiogenesis. Immunocytochemistry with a monoclonal anti-VEGF antibody revealed significant amounts of VEGF protein in the same glioma cells that expressed VEGF mRNA. The largest amount of VEGF immunoreactivity, however, was detected on the vasculature of glioblastomas, the site where VEGF exerts its biological functions. These findings suggest that VEGF is produced and secreted by glioma cells and acts on tumor endothelial cells which express VEGF receptors. To further characterize VEGF-producer cells in vivo, we investigated cellular proliferation, immunoreactivity to the p53 tumor-suppressor gene product and epidermal-growth-factor-receptor (EGFR) expression on serial sections by immunocytochemistry. VEGF-producer cells did not show increased cellular proliferation, p53 immunoreactivity or EGFR immunoreactivity as compared with glioma cells which did not express VEGF. Our studies therefore do not demonstrate evidence for a growth advantage of VEGF-producer cells in vivo or VEGF induction by p53 mutation or EGFR over-expression.
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PMID:Vascular endothelial growth factor and glioma angiogenesis: coordinate induction of VEGF receptors, distribution of VEGF protein and possible in vivo regulatory mechanisms. 752 92

The familial occurrence of gliomas, in the absence of well-defined neurological tumor syndromes such as the neurofibromatoses, is uncommon. We present a family of ten children in which the four eldest suffered from gliomas. Three of these siblings had histologically verified glioblastoma multiforme, and one patient also had an intestinal non-Hodgkin's lymphoma, but there were no stigmata or family history of a neurological tumor syndrome. Cytogenetic studies of the proband revealed a normal karyotype. Molecular genetic analysis of the proband's glioblastoma revealed two mutations in the p53 tumor suppressor gene, but these were not present in the germline DNA, mutations were not detected in the MTS1 gene in the tumors or in the germline DNA. These findings suggest that a genetic factor may be responsible for the clustering of glial tumors in this family, but it is unlikely that the genetic alteration is mutation of the p53 gene. The data are discussed in light of the literature on familial brain tumors.
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PMID:Glioblastoma multiforme in four siblings: a cytogenetic and molecular genetic study. 759 55

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