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)

Recent studies suggest that aberrations of c-erbB-2 may be involved in astrocytic brain tumours. We screened immunohistochemically c-erbB2 protein (p185) expression in 94 astrocytic grade 1-4 neoplasms of the brain. The amplification of the c-erbB-2 oncogene was investigated in protein overexpression cases by dual colour fluorescence in situ hybridisation (FISH). p185 overexpression was correlated with p53 and epidermal growth factor receptor (EGFR) expression, as well as with clinicopathological features. Only two anaplastic (grade 3) astrocytomas and one glioblastoma (grade 4) showed overexpression of p185 protein by immunohistochemistry (monoclonal MAb1 antibody TA250), whereas none of the grade 1-2 astrocytomas was positive. Interestingly, the expression of p185 was confined solely to the cytoplasm of neoplastic astrocytic cells and not to the cell membranes as found in malignancies with amplification of the c-erbB-2 oncogene. Two of the three overexpression cases were also positive by EGFR. No amplification of the c-erbB-2 gene was observed by FISH in the three tumours with immunohistochemical p185 overexpression or seven weakly positive/negative tumours. In conclusion, our results suggest that p185 overexpression is infrequent in astrocytomas, that it is of no important diagnostic or prognostic value and that c-erbB-2 oncogene amplification is not seen in the few cases in which there is overexpression.
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PMID:c-erbB-2 in astrocytomas: infrequent overexpression by immunohistochemistry and absence of gene amplification by fluorescence in situ hybridization. 860 96

There are distinct genetic pathways leading to the glioblastoma, the most malignant astrocytic brain tumor. Primary (de novo) glioblastomas develop in older patients and are characterized by epidermal growth factor (EGF) receptor amplification/overexpression, p16 deletion, and PTEN mutations, whereas secondary glioblastomas that progressed from low-grade or anaplastic astrocytoma develop in younger patients and frequently contain p53 mutations. In this study, we assessed the genetic profile of gliosarcoma, a rare glioblastoma variant characterized by a biphasic tissue pattern with alternating areas displaying glial and mesenchymal differentiation. Single-strand conformation polymorphism followed by direct DNA sequencing revealed p53 mutations in five of 19 gliosarcomas (26%) and PTEN mutations in seven cases (37%). Homozygous p16 deletion was detected by differential polymerase chain reaction in seven (37%) gliosarcomas. The overall incidence of alterations in the Rb pathway (p16 deletion, CDK4 amplification, or loss of pRb immunoreactivity) was 53%, and these changes were mutually exclusive. Coamplification of CDK4 and MDM2 was detected in one gliosarcoma. None of the gliosarcomas showed amplification or overexpression of the EGF receptor. Thus gliosarcomas exhibit a genetic profile similar to that of primary (de novo) glioblastomas, except for the absence of EGFR amplification/overexpression. Identical PTEN mutations in the gliomatous and sarcomatous tumor components were found in two cases. Other biopsies contained p16 deletions, an identical p53 mutation, or coamplification of MDM2 and CDK4 in both tumor areas. This strongly supports the concept of a monoclonal origin of gliosarcomas and an evolution of the sarcomatous component due to aberrant mesenchymal differentiation in a highly malignant astrocytic neoplasm.
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PMID:Genetic profile of gliosarcomas. 1066 71

The epidermal growth factor (EGF) receptor is overexpressed in many cancers, and is under intensive investigation as a target for cancer therapy. Cancer cells have also been shown to express mutated EGF receptors; these are potentially highly specific targets for cancer therapeutics, as they have not been detected in any normal adult tissues. The most common of these mutant EGF receptors, EGFRvIII, is one in which amino acids 6 - 273 of the extracellular domain are deleted. This specific mutation is common in glioblastoma and in several other types of cancer, and has been shown to promote aggressive growth of tumors in vivo. The loss of part of the extracellular domain results in a receptor that has constitutive tyrosine kinase activity. Current evidence suggests that EGFRvIII has altered signalling properties compared to normal EGF receptor. The mutation in EGFRvIII also creates a new, cancer cell-specific epitope. This epitope is extracellular and therefore represents a very promising target for antibody-directed therapeutics. This review covers our current understanding of the properties of EGFRvIII, and recent developments in the characterization and therapeutic application of EGFRvIII-specific antibodies.
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PMID:Mutant epidermal growth factor receptors as targets for cancer therapy. 1218 12

Cancer cells are known to express cell surface molecules such as specific antigens or cytokine receptors, e.g., EGFR, Fas/CD95, gp100, HER-2/neu, IL-13Ralpha2, and MAGE. Among them, interleukin-13 receptor (IL-13R) alpha2 chain is expressed on certain types of cancer cells including glioblastoma, AIDS Kaposi's sarcoma, and head and neck cancer. This protein is one of the receptor components for IL-13, a Th2 cell-derived pleiotropic immune regulatory cytokine. IL-13Ralpha2 chain on these cancer cells can be targeted with a receptor-directed cytotoxin termed IL13-PE to induce specific cancer cell killing, however, this molecule does not mediate cytotoxicity to cells that do not express or express low levels of IL-13Ralpha2. In order to achieve a broad therapeutic window for IL13-PE, plasmid-mediated gene transfer of IL-13Ralpha2 in cancer cells was employed in vitro and in vivo. Cancer cells transfected with IL-13Ralpha2 demonstrated increased binding to IL-13 and sensitivity to IL13-PE in vitro. In vivo intratumoral gene transfer of IL-13Ralpha2 profoundly enhanced the antitumor activity of IL13-PE, providing complete elimination of established tumor in some xenografts. In this review article, current findings from IL-13Ralpha2 gene transfer in a variety of human cancer models in nude mice are summarized. In addition, safety issues and possible future directions utilizing this therapeutic approach are discussed.
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PMID:Cancer gene therapy utilizing interleukin-13 receptor alpha2 chain. 1585 29

The G protein-coupled formylpeptide receptor (FPR), which mediates leukocyte migration in response to bacterial and host-derived chemotactic peptides, promotes the chemotaxis, survival, and tumorigenesis of highly malignant human glioblastoma cells. Because glioblastoma cells may also express other receptors for growth signals, such as the epidermal growth factor (EGF) receptor (EGFR), we investigated the role of EGFR in the signaling cascade of FPR and how two receptors cross-talk to exacerbate tumor growth. We found that N-formyl-methionyl-leucyl-phenylalanine, an FPR agonist peptide, rapidly induced EGFR phosphorylation at tyrosine residue (Tyr) 992, but not residues 846, 1068, or 1173, in glioblastoma cells, whereas all these residues were phosphorylated after only EGF treatment. The FPR agonist-induced EGFR phosphorylation in tumor cells was dependent on the presence of FPR as well as Galphai proteins, and was controlled by Src tyrosine kinase. The transactivation of EGFR contributes to the biological function of FPR in glioblastoma cells because inhibition of EGFR phosphorylation significantly reduced FPR agonist-induced tumor cell chemotaxis and proliferation. Furthermore, depletion of both FPR and EGFR by short interference RNA abolished the tumorigenesis of the glioblastoma cells. Our study indicates that the glioblastoma-promoting activity of FPR is mediated in part by transactivation of EGFR and the cross-talk between two receptors exacerbates the malignant phenotype of tumor cells. Thus, targeting both receptors may yield antiglioblastoma agents superior to those targeting one of them.
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PMID:Transactivation of the epidermal growth factor receptor by formylpeptide receptor exacerbates the malignant behavior of human glioblastoma cells. 1757 60

Studies support involvement of the erbB/HER (human epidermal growth factor receptor) family, comprising the c-erbB-1/2/3/4 receptor proteins, in the tumourigenesis of human gliomas, raising their potential role in diagnostic and therapeutic approaches to these tumours. Reliable detection systems for these molecules in glioma tissue are therefore needed. Formalin-fixed and paraffin-embedded sections from twenty-one human glioblastomas were investigated by standard immunohistochemical procedures for expression of c-erbB-1/2/3/4 receptor proteins using commercial antibodies. All the antibodies used worked satisfactorily on paraffin-sections. For EGFR (epidermal growth factor receptor) two antibodies reactive against the external and internal domain were used. The first revealed positive immunoreactivity in 13 of 21 tumours (62 %), whereas all were positive with the latter. All glioblastomas were negative for the mutated variant of EGFR (i.e. EGFRvIII). Nine of 21 tumours (43 %) were immunoreactive for c-erbB-2, 19 of 20 tumours (95 %) for c-erbB-3, and 21 of 21 for c-erbB-4. Kaplan-Meier plots as a function of growth factor receptor expression did not show any significant association with survival among the glioblastoma patients. In conclusion, immunohistochemistry is well suited for detection of erb receptor proteins in glioblastoma tissue and demonstrated abundant and simultaneous immunoreactivity of these receptors.
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PMID:Coexpression of c-erbB 1-4 receptor proteins in human glioblastomas. An immunohistochemical study. 1798 95

Amplification of the gene encoding the epidermal growth factor (EGF) receptor (EGFR) occurs commonly in glioblastoma, leading to activation of downstream kinases including phosphatidylinositol 3'-kinase (PI3K), Akt, and mammalian target of rapamycin (mTOR). Here, we show that phosphorylation of mTOR and its downstream substrate rpS6 (ribosomal protein S6) are robust biomarkers for the antiproliferative effect of EGFR inhibitors. Inhibition of EGFR signaling correlated with decreased abundance of phosphorylated mTOR (p-mTOR) and rpS6 (p-rpS6) in cells wild type for the gene encoding PTEN (phosphatase and tensin homolog on chromosome 10), a negative regulator of PI3K. In contrast, inhibition of EGFR signaling failed to affect p-mTOR or p-rpS6 in cells mutant for PTEN, which are resistant to EGFR inhibitors. Although the abundance of phosphorylated Akt (p-Akt) decreased in response to inhibition of EGFR signaling, Akt was dispensable for signaling between EGFR and mTOR. We identified an Akt-independent pathway linking EGFR to mTOR that was critically dependent on protein kinase C (PKC). Consistent with these observations, the abundance of EGFR generally correlated with phosphorylation of rpS6 and PKC in primary human glioblastoma tumors, and correlated poorly with phosphorylation of Akt. Inhibition of PKC led to decreased viability of glioma cells regardless of PTEN or EGFR status, suggesting that PKC inhibitors should be tested in glioma. These findings underline the importance of signaling between EGFR and mTOR in glioma, identify PKCalpha as essential to this network, and question the necessity of Akt as a critical intermediate coupling EGFR and mTOR in glioma.
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PMID:EGFR signals to mTOR through PKC and independently of Akt in glioma. 1917 18

Coronaviruses are positive-strand RNA viruses with features attractive for oncolytic therapy. To investigate this potential, we redirected the coronavirus murine hepatitis virus (MHV), which is normally unable to infect human cells, to human tumor cells by using a soluble receptor (soR)-based expression construct fused to an epidermal growth factor (EGF) receptor targeting moiety. Addition of this adapter protein to MHV allowed infection of otherwise nonsusceptible, EGF receptor (EGFR)-expressing cell cultures. We introduced the sequence encoding the adaptor protein soR-EGF into the MHV genome to generate a self-targeted virus capable of multiround infection. The resulting recombinant MHV was viable and had indeed acquired the ability to infect all glioblastoma cell lines tested in vitro. Infection of malignant human glioblastoma U87DeltaEGFR cells gave rise to release of progeny virus and efficient cell killing in vitro. To investigate the oncolytic capacity of the virus in vivo, we used an orthotopic U87DeltaEGFR xenograft mouse model. Treatment of mice bearing a lethal intracranial U87DeltaEGFR tumor by injection with MHVsoR-EGF significantly prolonged survival compared to phosphate-buffered saline-treated (P = 0.001) and control virus-treated (P = 0.004) animals, and no recurrent tumor load was observed. However, some adverse effects were seen in normal mouse brain tissues that were likely caused by the natural murine tropism of MHV. This is the first demonstration of oncolytic activity of a coronavirus in vivo. It suggests that nonhuman coronaviruses may be attractive new therapeutic agents against human tumors.
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PMID:Coronavirus genetically redirected to the epidermal growth factor receptor exhibits effective antitumor activity against a malignant glioblastoma. 1943 66

Glioblastoma multiform (GBM) is the most common malignant brain tumour in adults. Despite decades of experimentation to improve the outcome of patients with GBM this highly aggressive tumour remains fatal. Primary GBM are often characterized by the over-expression of epidermal growth factor (EGF) receptor/HER1 and/or its mutational variants, with ligand-independent, constitutively active EGF receptor vIII variant most frequently observed in GBM. EGF receptor signalling can promote tumorigenesis by increasing cell proliferation, tissue invasion, neoangiogenesis, tumour cell chemoresistance, and by inhibiting apoptosis of cancer cells. EGF receptor was the first receptor to serve as target for cancer therapy of many solid tumours. After 2 decades of intensive targeting of EGF receptor for molecular therapy, several anti-EGF receptor inhibitors are now available in the clinic. Therapeutic strategies to target EGF receptor and EGF receptor mutant forms in GBM include humanized monoclonal antibodies, tyrosine kinase inhibitors, and RNAi compounds. However, despite the fact that most EGF receptor-directed glioma therapies to date have focused on single therapeutic agents, a multi-directional approach involving targeted inhibition of multiple signalling pathways has emerged as a more robust therapeutical approach. Furthermore, the emergence of the hypothesis of "brain cancer stem cells" in the bulb of GBM identifies this population of cells with self-renewal capacity as novel obligatory targets for efficient cure of GBM. Here we summarize current findings on the clinical role of these EGF receptor inhibitory therapeutic agents in the treatment of GBM.
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PMID:EGF receptor inhibitors in the treatment of glioblastoma multiform: old clinical allies and newly emerging therapeutic concepts. 1983 72

The treatment of glioblastoma is unsatisfactory. Improved understanding of the biological effects of treatment, together with development of new tools to predict outcome of the initiated treatment are therefore of great need. Vandetanib (ZD6474) is mainly a vascular endothelial growth factor (VEGF) and epidermal growth factor (EGF) receptor tyrosine kinase inhibitor. This study investigated the pattern of protein expression in brain tumor and normal brain tissue, following treatment with vandetanib in a rat glioma model. BT4C-cells were stereotactically implanted into the brain of BD IX rats. The rats were divided into three different experiments. The treatment schedule for experiments one and two consisted of daily, oral doses of vandetanib from day 6 until day 12 or 20 after implantation, respectively. In the third experiment, each animal received a single dose of vandetanib on day 19 after implantation and was then sacrificed 2, 8 or 24 h thereafter. The protein expression profiles were analyzed by SELDI-TOF-MS and evaluated with multivariate statistical methods. Following treatment with vandetanib, we found significantly altered protein expression pattern in malignant glioma and normal brain. Analyzing protein spectra is an interesting option to assess biological effects induced in brain tissue by signal transduction inhibitors such as vandetanib.
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PMID:Vandetanib alters the protein pattern in malignant glioma and normal brain in the BT4C rat glioma model. 2081 10

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