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)

The p16INK4a gene product acts as a negative regulator of the cell cycle by binding to cyclin-dependent kinases (CDKs) 4 and 6, thereby inhibiting the formation of an active CDK/cyclin D complex. Deletion of the p16 locus has been observed in tumor cell lines and, less frequently, in primary human neoplasms. We analyzed 31 glioblastomas and identified 6 cases with hemizygous and 6 with homozygous deletions of the p16 locus. Eight of these cases showed a concurrent amplification of the EGFR gene (epidermal growth factor receptor) while the overall frequency was 35%. This close correlation suggests that deletion of the p16 chromosomal region constitutes another genetic hallmark of the primary glioblastoma, which rapidly develops de novo, without a less malignant precursor lesion and for which EGFR amplification is a characteristic genetic change. The p16 protein was not detectable in 15 of 22 glioblastomas but only 4 of these showed homozygous deletion of the gene. The alternative transcript p16 beta, for which a growth-suppressing function has been suggested, was co-expressed with p16 alpha mRNA in most cases. Hypermethylation of CpG islands in the 5' region of the p16 gene was identified in only 1 case, suggesting that this alternative mechanism of gene silencing is rarely responsible for loss of p16 expression in glioblastomas. Likewise, only 1 glioblastoma carried a p16 mutation and in addition, unexpectedly, a homozygous deletion of p16 in approximately 80% of tumor cells. This mutation, Arg24Pro, has previously been identified in a melanoma kindred.
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PMID:Hemizygous or homozygous deletion of the chromosomal region containing the p16INK4a gene is associated with amplification of the EGF receptor gene in glioblastomas. 933 10

Loss of heterozygosity (LOH) from chromosome 10 is a hallmark of glioblastoma, the most malignant (grade IV) form of glioma. A candidate tumor suppressor gene, PTEN/MMAC1, that may be targeted for deletion in association with chromosome 10 LOH has recently been identified. Here we have investigated 63 glioblastomas for PTEN/MMAC1 alterations and identified DNA sequence changes that would affect the encoded protein in 17 (27%) tumors. Microsatellite analyses of normal-tumor DNA pairs were performed on 14 of these cases and revealed LOH at locations flanking and/or near PTEN/MMAC1 in all but 1 instance, suggesting that deletion of the remaining wild-type allele had occurred in the large majority of tumors with PTEN/MMAC1 mutations. Competitive PCR assays were developed to address the possible occurrence of PTEN/MMAC1 homozygous deletions in glioblastomas, and this analysis identified three samples having loss of both PTEN/MMAC1 alleles. EGFR amplification was determined to occur at similar frequencies among cases with or without PTEN/MMAC1 homozygous deletions or mutations, suggesting that a growth-promoting effect resulting from amplification-associated increases in epidermal growth factor receptor signaling is not necessarily dependent on the inactivation of PTEN/MMAC1.
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PMID:PTEN/MMAC1 mutations and EGFR amplification in glioblastomas. 939 44

A patient with malignant glioblastoma was treated with intratumoral infusions of the murine MAb425 (IgG2A) directed against the epidermal growth factor receptor. At the 10th infusion, the patient developed somnolence, fever and headache. The symptoms increased during the subsequent 48 hr but then gradually disappeared within a week. The cerebrospinal fluid (CSF) contained increased concentrations of interleukin-2. The main CSF cell subset was CD4 T-cells. A marked blood lymphocyte proliferative response against mouse IgG2A was noted. The reactive T-cell epitope(s) could be localized to a 14 amino acid (RGPTIKPCPPCKCP) long peptide of the hinge region. A B-cell response (IgG antibodies) against this peptide was also induced.
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PMID:Induction of a T- and B-cell response against a unique amino acid sequence of the mouse IgG2A hinge region in a MAb-treated patient. 939 53

In this study we have examined the epidermal growth factor receptor gene (EGFR) region for the amplification of novel expressed sequences in 28 glioblastoma tumors and two cell lines with EGFR gene amplification. Southern analysis with expressed sequence tag (EST) probes revealed instances of amplification for 11 of 13 loci investigated. Northern blot analysis with the same probes indicated that three ESTs identified transcripts that are over-expressed in cell lines having corresponding sequence amplification. The determination of increased dosage and transcript levels for multiple expressed sequences raises the possibility that there are genes in addition to EGFR whose elevated expression contribute to the biologic behavior of tumors with amplification of this region.
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PMID:Analysis of EGF receptor amplicons reveals amplification of multiple expressed sequences. 946 36

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

Over the past few years, although much has been learned about the molecular genetics of central nervous system (CNS) tumors, researchers and pathologists are only beginning to understand the scientific basis of the development of these tumors. Data accumulated so far support the division of glioblastoma into two clinical and molecular subsets. Primary or de novo glioblastomas occur in older patients, are clinically aggressive and exhibit epidermal growth factor receptor amplification or overexpression. Secondary glioblastomas develop from pre-existing low-grade astrocytomas, have a more protracted clinical course, and frequently contain p53 mutations. Both types of tumors show deletions of chromosome 10 and possibly mutations of the PTEN/MMAC1 gene as an endstage event. Oligodendrogliomas have been shown to have genetic abnormalities distinct from those of the astrocytic tumors, commonly involving chromosomes 1p and 19q. As regards meningiomas, loss of chromosome 22q and mutations of the neurofibromatosis type 2 gene are frequent events and loss of chromosome 14q and 10q may be seen in atypical or malignant transformation. Such genetic findings, apart from providing a better understanding of neoplastic transformation in brain tumors, are beginning to form the basis of a new approach to neuro-oncology.
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PMID:The molecular genetics of central nervous system tumors. 964 6

The present study analyzed the combined immunostaining for proliferating cell nuclear antigen (PCNA) and epidermal growth factor receptor (EGFR) with the aim of obtaining an objective method for the evaluation of the growth fraction in human glial tumors. A retrospective study was undertaken on 157 gliomas employing MoAb PC10 and MoAb 108, recognizing a 36 Kd nuclear protein associated with the cell cycle and the extracellular domain of the EGFR, respectively. The results of this immunohistochemical analysis showed that the rate of PCNA positive cell is directly associated to EGFR expression and significantly (P < 0.0001) correlates with tumor morphological grading, this was also the case in patients submitted to multiple surgical treatments for recurrent tumors. PCNA and/or EGFR are expressed by a minority of low grade astrocytoma, while anaplastic astrocytoma and glioblastoma displayed an intense immunoreactivity for the two antigens in more than 85% of tested cases. These findings indicate that the combined evaluation of PCNA and EGFR could allow a more definite biopathological grading of neuroepithelial brain tumours.
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PMID:Comparative analysis of proliferating cell nuclear antigen and epidermal growth factor receptor expression in glial tumours: correlation with histological grading. 967 49

Rearrangements concerning chromosome 9p are a late event in the progression of human astrocytic tumors to their most malignant form. The expression of PAX5, which maps to chromosome 9p13, was studied in primary human brain tumors of astrocytic origin. Whereas murine Pax5 is not expressed in the forebrain at any stage, PAX5 expression was increased in a range of astrocytomas (WHO grades II-IV) which originated in the forebrain. Expression of PAX5 was limited to those cells which also expressed the oncogenes myc, fos, or jun singularly or in combination. The epidermal growth factor receptor was highly expressed in glioblastoma multiform tumors in areas which were also highly PAX5 positive. We conclude that the missappropriate expression of PAX5 may aid in promoting the progression of astrocytomal malignancy.
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PMID:PAX5 expression correlates with increasing malignancy in human astrocytomas. 981 75

The epidermal growth factor receptor (EGFR) is a protooncogene that is frequently observed with alterations in late stage gliomas, suggesting an important role of this gene in glial tumorigenesis and progression. In this study we evaluated an antisense EGFR approach as an alternative therapeutic modality for glioblastomas. We transfected U-87MG cells with an antisense EGFR construct and obtained several clones stably expressing lower or undetectable levels of EGFR protein. These clones were found to have impaired proliferation as well as a reduced transforming potential to grow in soft agarose. The number of cells positive for the cell cycle-specific nuclear antigen Ki-67 was also significantly decreased (P < 0.05) in antisense EGFR-transfected clones compared with parental or empty vector-transfected cells. Flow cytometric analysis revealed that the proportion of cells in G0/G1 phases of the cell cycle in the antisense clones increased by up to 31% compared with control cells, whereas the proportion of cells in S phase decreased by up to 58%. In addition, the antisense EGFR-transfected cells showed higher expression of glial fibrillary acidic protein and a more differentiated form, with smaller cell bodies possessing fine tapering cell processes. These results suggest that EGFR plays a major role in modulating cell growth and differentiation in glioblastoma cells. Our experimental model of antisense EGFR provides a basis for future development of antisense EGFR oligodeoxynucleotides in treatment of glioblastomas.
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PMID:Antisense epidermal growth factor receptor RNA transfection in human malignant glioma cells leads to inhibition of proliferation and induction of differentiation. 982 Nov 70

The association of antisense epidermal growth factor receptor (EGFR) cDNA fragments with nuclear matrix from EGFR-antisense transfected glioblastoma cell lines U343 and U87 was investigated. A 1015 bp DNA fragment (primer I-II) was amplified in both genomic DNA and nuclear matrix-associated DNA (NM DNA) from EGFR-antisense transfected glioblastoma cell lines U343E and U87E. Two different DNA fragments (940 bp and 110 bp) were amplified by primer I-III in both genomic DNA and NM DNA of U343E, while one 110 bp PCR product was shown with the same primer in both genomic DNA and NM DNA of U87E only. After EGFR-antisense transfection, the binding property of the 110 bp DNA fragment (primer IV-V) to nuclear matrix was not affected. Southwestern blotting demonstrated the presence of antisense EGFR cDNA binding nuclear matrix proteins. Our findings demonstrate that not only EGFR DNA is associated with nuclear matrix, but the transfected antisense EGFR cDNA also binds to nuclear matrix proteins. The nuclear matrix is most likely involved in the replication and transcription of antisense EGFR cDNA or hybridisation with sense mRNA in vitro.
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PMID:A study on the relationship between antisense EGFR cDNA fragments and nuclear matrix proteins in glioblastoma cells. 985 27

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