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)

We found a direct correlation between increasing ras p21 protein immunopositivity and severity of human glioma using computer-assisted, digital-image processing to quantify the amount of p21 immunoreactive to the monoclonal antibody RAP-5. We determined that there was a significant difference in reactivity between glioblastoma multiformes and more-differentiated astrocytomas (experiment-wise error less than 0.05). This result confirmed the conclusions made on the same tumors using standard light microscopy and visual examination. Immunohistochemistry quantized by automated image analysis may be a useful adjunct to current histopathological strategies since it decreases assay subjectivity and variation.
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PMID:Application of automated image analysis to demonstrate the correlation between ras p21 expression and severity of gliomas. 219 8

Five human glioblastoma cell lines were analyzed for oncogene activation with a panel of probes. Abnormal expression of the epidermal growth factor receptor (EGFr) gene was detected in four of five lines; N-ras oncogene overexpression was found in all five cell lines. These results were subsequently confirmed with fresh brain tumor and nonneoplastic brain tissue biopsy samples; increased expression of the N-ras proto-oncogene was observed in five of five glioblastomas, all of which also showed EGFr gene overexpression, but not in well-differentiated gliomas or in nonneoplastic brain tissue specimens. No significant differences in Ha-ras and Ki-ras expression were observed. Preliminary histochemical observations showed that intracellular levels of transforming growth factor alpha, a putative biochemical link between these two oncogenes, were significantly higher in glioblastoma cells than in controls.
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PMID:Overexpression of N-ras oncogene and epidermal growth factor receptor gene in human glioblastomas. 290 20

Examination of a human glioblastoma cell line displaying a relatively stable karyotype and absence of both copies of chromosome #13 (HeRo) as well as of a SV-40 transformed subline (HeRo-SV) using analysis on the DNA and RNA level showed that both cell lines express high levels of abl, erb B, myc, and Ha-ras mRNA. Neither gene amplification nor gene rearrangement at the loci concerned nor abnormal transcription account for this activation of expression. The possible influence of the deleted sequences in the context of a suppressor gene hypothesis is discussed.
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PMID:Enhanced expression of four cellular oncogenes in a human glioblastoma cell line. 382 71

Current basic research on tumorigenesis suggests that the accumulation of multiple genetic defects underlies the progression of initiated cells toward malignancy. Molecular abnormalities associated with primary brain tumors include a wide variety of changes in tumor-suppressor genes, proto-oncogenes and growth factors. A well-known tumor-suppressor gene, p53 gene, is located on the short arm (p) of chromosome 17 and consists of 11 exons transcribed into a 2.2-2.5 kb messenger (m) RNA that encode for a 53 kDa protein. Its alterations are associated with carcinogenesis of astrocytic tumors. Recent evidence suggests also that the p53 protein may function through promoting the expression of the recently discovered gene, WAF1/Cipl. Loss of chromosome 10 was frequently observed in glioblastoma. Southern blot analysis of glioblastomas revealed that 72% have the chromosome 10 loss and that 38% had amplification of the epidermal growth factor receptor (EGFR) gene. Autocrine stimulation of cell growth requires the presence of both growth factors and their receptors. Other genetic alterations in gliomas include elevated expression of the c-myc, Ha-ras, and c-fos oncogenes with a trend to increase in higher malignant grades.
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PMID:Molecular changes involved in the carcinogenesis of brain tumors. 788 30

Wild-type p53 functions in the G1 DNA damage checkpoint pathway by activating gene transcription and preventing cell cycle progression. Others reported that mutation of the serine 386 codon in mouse p53 abolished its ability to suppress growth. Serine 386 of murine p53 and the homologous residue of human p53, serine 392, are phosphorylated in vivo and can be phosphorylated in vitro by casein kinase II (CKII). We constructed mutants that changed serine 392 of human p53 to alanine (p53-S392A) or aspartic acid (p53-S392D); cotransfection of both these mutants with a reporter gene carrying a p53-responsive element into the p53-null Saos-2 cell line activated transcription as well as did wild-type p53. Furthermore, both mutants blocked cell cycle progression after transient transfection in these cells. A stable derivative of the T98G human glioblastoma cell line was established that expressed p53-S392A in response to dexamethasone. Overexpression of this mutant activated transcription of the endogenous waf1 (also called cip1) and mdm2 genes to the same extent as wild-type p53 and also produced growth arrest. Finally, p53-S392A and p53-S392D suppressed foci formation by activated ras and adenovirus E1A oncogenes as efficiently as did wild-type p53. Thus, unlike mutants that altered the serine 15 phosphorylation site, elimination of the serine 392 phosphorylation site had no discernible effect on p53 function. We conclude that neither phosphorylation nor RNA attachment to serine 392 are required for human p53's ability to suppress cell growth or to activate transcription in vivo.
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PMID:The carboxy-terminal serine 392 phosphorylation site of human p53 is not required for wild-type activities. 793 49

Human glioblastoma cells (A172) were found to concomitantly express PDGF-BB and PDGF beta-receptors. The receptors were constitutively autophosphorylated in the absence of exogenous ligand, suggesting the presence of an autocrine PDGF pathway. Neutralizing PDGF antibodies as well as suramin inhibited the autonomous PDGF receptor tyrosine kinase activity and resulted in up-regulation of receptor protein. The interruption of the autocrine loop by the PDGF antibodies reversed the transformed phenotype of the glioblastoma cell, as determined by (1) diminished DNA synthesis, (2) inhibition of tumor colony growth, and (3) reversion of the transformed morphology of the tumor cells. The PDGF antibodies showed no effect on the DNA synthesis of another glioblastoma cells line (U-343MGa 31L) or on Ki-ras-transformed fibroblasts. The present study demonstrates an endogenously activated PDGF pathway in a spontaneous human glioblastoma cell line. Furthermore, we provide evidence that the autocrine PDGF pathway drives the transformed phenotype of the tumor cells, a process that can be blocked by extracellular antagonists.
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PMID:Activated platelet-derived growth factor autocrine pathway drives the transformed phenotype of a human glioblastoma cell line. 810 74

Recent studies show that tyrosine phosphorylation by a number of neuropeptides may be an important intracellular pathway in mediating changes in cell function, particularly related to growth. Neuromedin B (NMB), a mammalian bombesin related peptide, functions through a distinct receptor, the neuromedin B receptor (NMB-R), of which little is known about its cellular basis of action. In the present study we explored the ability of NMB-R activation to cause tyrosine phosphorylation of focal adhesion kinase (p125(FAK)), an important substrate for tyrosine phosphorylation by other neuropeptides. NMB caused rapid increases in p125(FAK) phosphorylation which reached maximum at 2 min in both rat C6 glioblastoma cells which possess native NMB-Rs and rat neuromedin B receptor (rNMR-R) transfected BALB 3T3 cells. NMB had a half-maximal effect was at 0.4 nM and was 30-fold more potent than gastrin-releasing peptide (GRP). The stoichiometric relationships between increased p125(FAK) tyrosine phosphorylation and other cellular processes was similar in both C6 cells and rNMB-R transfected cells. TPA (1 microM) caused 45% and the calcium ionophore, A23187, 11% of maximal tyrosine phosphorylation of p125(FAK) seen with NMB. A23187 potentiated the effect of TPA. Pretreatment with the selective PKC inhibitor, GF109203X, inhibited TPA-induced p125(FAK) tyrosine phosphorylation, but it had no effect on the NMB stimulation. Pretreatment with thapsigargin completely inhibited NMB-stimulated increases in [Ca2+]i, but had no effect on NMB-stimulation of p125(FAK) phosphorylation either alone or with GF109203X. The tyrosine kinase inhibitor, tyrphostin A25, inhibited NMB-induced phosphorylation of p125(FAK) by 52%. However, tyrphostin A25 did not inhibit NMB-stimulated increases in [3H]inositol phosphates. Cytochalasin D, an agent which disrupts actin microfilaments, inhibited BN- and TPA-induced tyrosine phosphorylation of p125(FAK) completely. In contrast, colchicine, an agent which disrupts microtubules, had no effect. Pretreatment with Clostridium botulinum C3 exoenzyme which inactivates the small GTP-binding protein rho p21, also inhibited tyrosine phosphorylation of p125(FAK) by 55%. These results demonstrate that activation of NMB-R can cause rapid tyrosine phosphorylation of p125(FAK). NMB-induced tyrosine phosphorylation of p125(FAK) is independent of NMB-induced changes in [Ca2+]i or PKC. The integrity of the actin cytoskeleton but not of microtubules is necessary for NMB-stimulated phosphorylation of p125(FAK). The ras-related small GTP-binding protein rho p21 is at least partially involved in mediating NMB-induced tyrosine phosphorylation of p125(FAK). These results suggest that similar to some other neuropeptides, activation of this pathway may be an important mechanism in mediating cellular changes by this receptor such as growth.
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PMID:Neuromedin B receptor activation causes tyrosine phosphorylation of p125FAK by a phospholipase C independent mechanism which requires p21rho and integrity of the actin cytoskeleton. 940 68

Human reovirus requires an activated Ras signaling pathway for infection of cultured cells. To investigate whether this property can be exploited for cancer therapy, severe combined immune deficient mice bearing tumors established from v-erbB-transformed murine NIH 3T3 cells or human U87 glioblastoma cells were treated with the virus. A single intratumoral injection of virus resulted in regression of tumors in 65 to 80 percent of the mice. Treatment of immune-competent C3H mice bearing tumors established from ras-transformed C3H-10T1/2 cells also resulted in tumor regression, although a series of injections were required. These results suggest that, with further work, reovirus may have applicability in the treatment of cancer.
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PMID:Reovirus therapy of tumors with activated Ras pathway. 986 27

The expression of activated ras genes has been implicated as a contributing factor to the radioresistance of tumor cells. As a strategy for compromising Ras protein activity and potentially enhancing the radiosensitivity of tumor cells, we have investigated the application of the AV1Y28 adenovirus, which expresses a single-chain antibody fragment directed against p21 Ras proteins. The ability of AV1Y28 transduction to modulate radioresponse was investigated using four human tumor cell lines--U251 glioblastoma, MIA PaCa-2 pancreatic carcinoma, and the colon carcinomas SW620 and HT29. Cultures were exposed to sufficient levels of AV1Y28 to transduce more than 90% of the cells; 24 h later, cultures were exposed to ionizing radiation, and clonogenic cell survival was determined. Tumor cell survival was reduced by 40-50% when the tumor cell lines were exposed to AV1Y28 only. In addition, for each tumor cell line, AV1Y28 exposure enhanced the level of radiation-induced cell killing. Dose enhancement factors at a surviving fraction of 0.1 ranged from 1.3 to 1.5. Furthermore, for each of the cell lines, the surviving fraction at 2 Gy was significantly reduced by AV1Y28 exposure. In contrast to the results seen in tumor cells, the radiosensitivity of a normal human fibroblast cell line was not affected by AV1Y28. These data indicate that this anti-Ras adenovirus enhances the radiosensitivity of tumor cells but does not affect the radiosensitivity of normal cells.
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PMID:Radiosensitization of human tumor cell lines induced by the adenovirus-mediated expression of an anti-Ras single-chain antibody fragment. 1053 3

Gene amplification and enhanced expression of the epidermal growth factor receptor (EGFR) represent the major molecular genetic alteration in glioblastomas and it may play an essential role in cell growth and in the carcinogenic process. On the other hand, the nuclear suppressor proteins PML and p53 are also known to play critical roles in cancer development and in suppressing cell growth. Here we report that, in glioblastoma cells with defective EGFR function, the expressions of both promyelocytic leukaemia (PML) and p53 were altered. Cells that were transfected with the antisense-cDNA of EGFR were found to have more cells in G1 and fewer cells in S phase. In addition, the transfected cells were found to be non-responsive to EGF-induced cell growth. Interestingly, the expression of the suppressors p53 and PML were found to be significantly increased by immunohistochemical assay in the antisense-EGFR cells. Moreover, the PML expression in many of the cells was converted from the nuclear dot pattern into fine-granulated staining pattern. In contrast, the expressions of other cell cycle regulated genes and proto-oncogene, including the cyclin-dependent kinase 4 (cdk4), retinoblastoma, p16INK4a and p21H-ras, were not altered. These data indicate that there are specific inductions of PML and p53 proteins which may account for the increase in G1 and growth arrest in antisense-EGFR treated cells. It also indicates that the EGF, p53 and PML transduction pathways were linked and they may constitute an integral part of an altered growth regulatory programme. The interactions and cross-talks of these critical molecules may be very important in regulating cell growth, differentiation and cellular response to treatment in glioblastomas.
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PMID:Altered expression of the suppressors PML and p53 in glioblastoma cells with the antisense-EGF-receptor. 1057 56

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