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)

A large number of oncogenes have been identified as aberrant in gliomas, but only the erbB oncogene (gene encoding the epidermal growth factor receptor [EGFR]) is amplified in an appreciable number. The loss or mutation of tumor-suppressor genes located on different autosomes may be associated with progression of malignant gliomas. The p53 tumor-suppressor gene (located on chromosome 17) is frequently associated with the loss of one allele in malignant gliomas, although a large number of malignant gliomas have no p53 mutations. Some of the latter tumors have an amplified murine double minute 2 (MDM2) gene, which suppresses p53 gene activity. Genetic material from chromosome 10 may also be lost, especially in glioblastoma multiforme. In addition to the aberrant expression of EGFR, another growth factor, platelet-derived growth factor, or PDGF (ligand and/or receptors) can be overexpressed, giving cells a selective growth advantage. The blood-brain barrier is substantially altered in malignant gliomas, resulting in cerebral edema. Therapy for malignant gliomas includes surgery, radiation therapy, and chemotherapy. Surgical resection that leaves little residual tumor produces longer survival than less vigorous surgery. Radiation therapy to a dose of at least 60 Gy is required to treat malignant gliomas. Increased survival beyond that produced by standard external radiotherapy requires much larger doses; interstitial radiotherapy permits such dosing. Radiosurgery is being tested. Chemotherapy with nitrosoureas is modestly useful but appears to benefit patients with anaplastic astrocytoma more so than those with glioblastoma.
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PMID:Biology and treatment of malignant glioma. 950 24

Glioblastomas may develop rapidly without clinical and histopathological evidence of a less malignant precursor lesion (de novo or primary glioblastoma) or through progression from low-grade or anaplastic astrocytoma (secondary glioblastoma). Primary glioblastomas typically show overexpression of EGFR, but rarely p53 mutations, while secondary glioblastomas frequently carry a p53 mutation, but usually lack overexpression of EGFR, suggesting that these glioblastoma subtypes develop through distinct genetic pathways. In the present study, we assessed the expression of Fas/APO-1 (CD95), an apoptosis-mediating cell membrane protein, and its relation to necrosis phenotype in primary and secondary glioblastomas. Large areas of ischemic necroses were observed in all 18 primary glioblastomas, but were significantly less frequent in secondary glioblastomas (10 of 19, 53%; p = 0.0004). Fas expression was predominantly observed in glioma cells surrounding large areas of necrosis and was thus significantly more frequent in primary glioblastomas (18 of 18, 100%) than in secondary glioblastomas (4 of 19, 21%; p < 0.0001), suggesting that these clinically and genetically defined subtypes of glioblastoma differ in the extent and mechanism of necrogenesis. Necrosis and microvascular proliferation are histologic hallmarks of the glioblastoma. Following incubation of glioblastoma cell lines under hypoxic/anoxic conditions for 24-48 hours, Fas mRNA levels remained unchanged, whereas VEGF expression was markedly upregulated. This suggests that in contrast to VEGF Fas expression is not induced by ischemia/hypoxia. Analysis of Fas mRNA levels in a glioblastoma cell line containing a p53 mutation and an inducible wild-type p53 gene showed little difference under induced and noninduced conditions, suggesting that in glioblastomas, Fas expression is not directly linked to the p53 status.
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PMID:Necrogenesis and Fas/APO-1 (CD95) expression in primary (de novo) and secondary glioblastomas. 960 Feb 16

Loss of heterozygosity (LOH) on chromosome 10 is the most frequent genetic alteration associated with the evolution of malignant astrocytic tumors and it may involve several loci. The tumor suppressor gene PTEN (MMAC1) on chromosome 10q23 is mutated in approximately 30% of glioblastomas (WHO Grade IV). In this study, we assessed the frequency of PTEN mutations in primary glioblastomas, which developed clinically de novo, and in secondary glioblastomas, which evolved from low-grade (WHO Grade II) or anaplastic astrocytomas (WHO Grade III). Nine of 28 (32%) primary glioblastomas contained a PTEN mutation and an additional case showed a homozygous PTEN deletion. This indicates that after overexpression/amplification of the EGF receptor, loss of PTEN function is the most common alteration in primary glioblastomas. In this series, 5 of 28 (18%) primary glioblastomas showed both a PTEN mutation and EGFR amplification. In contrast, only 1 of 25 (4%) secondary glioblastomas contained a PTEN mutation, and none of them showed a homozygous PTEN deletion. The secondary glioblastoma with a PTEN mutation developed from an anaplastic astrocytoma that already carried the mutation. The observation that secondary glioblastomas have a p53 mutation as a genetic hallmark but rarely contain a PTEN mutation supports the concept that primary and secondary glioblastomas develop differently on a genetic level.
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PMID:PTEN (MMAC1) mutations are frequent in primary glioblastomas (de novo) but not in secondary glioblastomas. 969 Jun 72

The presented classification of astrocytic gliomas follows the system adopted by the WHO which was last published in 1993. The nosographic position of each tumour type is discussed in relation to previous positions and the rationale of changes is provided. The biology and pathology of anaplasia, leading from astrocytoma to glioblastoma, are discussed briefly. The increasing genotypic and phenotypic heterogeneity is described in its progressive stages. A series of genetic changes are associated with the main histologic features of malignancy , such as TP53 mutations, EGFR amplification, CDKN2 deletion, etc. The genetic differences between primary and secondary glioblastomas are emphasised. Tumour-associated biological events are presented: cell invasion and spread, necrosis and apoptosis and angiogenesis are all discussed in some detail. Of each event a short survey on the principal phenotypic and molecular features is given with emphasis on their significance to pathogenesis. Each tumour type is briefly summarised from epidemiological, clinical and pathological standpoints.
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PMID:Classification and biology of astrocytic gliomas. 975 90

Rearrangements of EGFR are known to occur in a significant fraction of glioblastomas, the most common and malignant form of central nervous system tumor. Although the consequences of these alterations have been described at the mRNA and protein level, little is known about human EGFR genomic sequence or organization at the rearrangement sites. To investigate one group of alterations in glioblastoma, we used long-range PCR to synthesize a segment of the gene near its 3' end, which is frequently rearranged in tumors with EGFR amplification. The sequence of this PCR product provided a precise map for the five 3'-terminal exons of EGFR, designated as exons 22-26. Ten tumors were identified with rearrangements in this part of the gene, most of which resulted in the loss of 325 coding bases that constitute exons 23-25. No two tumors shared identical donor or acceptor rearrangement sites, and the examination of sequences at these sites failed to support homologous recombination as a mechanism responsible for any of the rearrangements. However, examination of the entire exon 22-26 region for sequence motifs associated with genomic instability identified two large, CA-rich tracts in intron 25.
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PMID:3' end structure and rearrangements of EGFR in glioblastomas. 979 May 6

We previously reported that schwannoma-derived growth factor (SDGF), a member of heparin-binding epidermal growth factor (EGF) family, participates in autocrine pathways and promotes rat glioma cell growth. To investigate the potential role of similar molecules in human gliomas, we examined 7 human glioma cell lines and 11 glioblastoma specimens for expression of the human homologue of SDGF, amphiregulin (AR), as well as heparin-binding EGF-like growth factor (HB-EGF). Northern blot analysis revealed that only one cell line and no tumor specimens expressed AR mRNA. In contrast, HB-EGF mRNA was expressed in all human glioma cell lines and its level of expression was two- to five-fold higher than that of control brain tissues in 8 of 11 glioblastoma cases. Immunohistochemistry demonstrated that membrane-anchored HB-EGF (proHB-EGF) and EGFR were co-expressed in 44% of 34 human malignant gliomas. Introduction of exogenous HB-EGF (10 ng/ml) increased human glioma cell proliferation, and anti-HB-EGF blocking antibodies reduced the growth of glioma cells by 30-40%, confirming the presence of an autocrine loop. When added to the medium, transforming growth factor-alpha, basic fibroblast growth factor, or HB-EGF rapidly induced HB-EGF mRNA expression. These results indicate that HB-EGF and proHB-EGF contribute to the growth of human malignant glioma cells, most likely through autocrine and juxtacrine mechanisms.
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PMID:Heparin-binding epidermal growth factor-like growth factor stimulates mitogenic signaling and is highly expressed in human malignant gliomas. 979 95

The protein composition of the nuclear matrix is both tissue and cell type specific, and it undergoes changes with differentiation and transformation. In the present study, nuclear matrix proteins of EGFR-antisense transfected glioblastoma cell lines, U87 and U343, were compared with untransfected cell lines using two dimensional-gel electrophoresis. After EGFR-antisense transfection, the protein compositions of the nuclear matrices in both cell lines were different. Several nuclear proteins were only found in EGFR-antisense transfected cell lines. There was no difference in NuMA expression in the transfected and untransfected cell lines. These results suggest that EGFR-antisense reduced tumorigenicity on human glioblastoma cells by changing nuclear matrix protein compositions.
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PMID:Comparison of nuclear matrix proteins between EGFR-antisense transfected and untransfected glioblastoma cells. 985 91

Giant cell glioblastoma is a rare glioblastoma variant characterized by the presence of large, bizarre, multinucleated giant cells. This glioblastoma subtype develops clinically de novo after a short clinical history and contains a high frequency of p53 mutations. In this study, we screened a series of 18 giant cell glioblastomas for additional genetic alterations. PCR-SSCP followed by DNA sequencing revealed PTEN mutations in 5 of 15 tumors (33%). Of these, two mutations were located in exon 5, two mutations in exon 6, and one mutation each in exons 1 and 9. Four mutations were point mutations and two mutations were deletions. One neoplasm contained two PTEN mutations (exons 5 and 6). None of the giant cell glioblastomas showed a homozygous deletion of PTEN orp16, or amplification of MDM2. Immunohistochemically, MDM2 overexpression was either not observed or detected in only a minor fraction of tumor cells. Differential PCR revealed EGFR amplification in only one of 17 tumors (6%). These results indicate that giant cell glioblastomas occupy a hybrid position, sharing with primary (de novo) glioblastomas a short clinical history, the absence of a less malignant precursor lesion and a 30% frequency of PTEN mutations. With secondary glioblastomas that develop through progression from low-grade astrocytomas, they have in common a younger patient age at manifestation and a high frequency (>70%) of p53 mutations.
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PMID:Genetic profile of the giant cell glioblastoma. 1006 1

The PTEN gene, recently identified on chromosome 10q23, has been proposed to be a candidate tumor suppressor gene inactivated in multiple cancers including glial tumors. We investigated 47 glioblastomas (GBM), 14 anaplastic astrocytomas (AA), 6 non-pilocytic low-grade astrocytomas (LGA), 21 low-grade and anaplastic oligodendrogliomas (O) and oligoastrocytomas (OA), and 3 ependymomas (E) for mutation of the PTEN gene using denaturing gradient gel electrophoresis (DGGE) followed by DNA sequencing. These tumors have been previously screened for loss of heterozygosity (LOH) on chromosome 10q, p53 mutations and EGFR amplification. Overall, PTEN mutations, detected in 14 of 91 tumors, were present in 13 of 47 GBM and 1 of 14 AA. In contrast, mutations were absent in other glioma subtypes (0/30). In all informative cases, PTEN mutations occurred in tumors showing LOH on chromosome 10q, confirming the inactivation of this gene by a 2-hit mechanism. No correlation was observed between the presence of PTEN mutation and p53 mutation and EGFR amplification. Our results indicate that biallelic PTEN inactivation plays an important role in the pathogenesis of high-grade astrocytomas as a late event. Moreover, they suggest that PTEN alterations are equally involved in the 2 glioblastoma pathways defined by the presence of EGFR amplification and p53 mutation. Finally, correlation analysis with clinical data did not show that PTEN mutation was linked to survival of the patients.
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PMID:Mutational analysis of the PTEN gene in gliomas: molecular and pathological correlations. 1009 47

We investigated the frequency and mutual relationship of molecular alterations in 33 malignant astrocytomas (28 glioblastomas and 5 anaplastic astrocytomas). The genetic alterations analyzed were: deletion of CDKN2a/p16 gene, TP53 mutations, and amplification of EGFR, MDM2 and CDK4. The most common genetic alteration was EGFR amplification which was revealed in 15 cases (45%). TP53 mutation was identified in 9 cases (27%) and CDKN2/p16 deletion was detected in 13 cases (41%). Either MDM2 and CDK4 amplifications were less frequent, as they were identified in 4 (12%) and 1 (3%) case, respectively. Of the 15 cases showing the amplification of EGFR, 9 had CDKN2/p16 deletion (60%, p = 0.04). On the other hand, CDKN2/p16 deletion and EGFR amplification rarely occurred with TP53 mutations (2 of 14 cases with CDKN2/p16 deletion, 14%). These results confirm the existence of at least two different pathways leading to the formation of a glioblastoma.
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PMID:Mutations of TP53, amplification of EGFR, MDM2 and CDK4, and deletions of CDKN2A in malignant astrocytomas. 1032 80

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