Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0017636 (glioblastoma)
18,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Our aim has been to understand the features of erbB receptor homo- and heterodimer assembly to develop approaches to disrupt receptor activation. We have developed a general approach to cause erbB receptor-specific trans inhibition of human neoplasia. The clonal progression of human astrocytomas to a more malignant phenotype often involves the amplification and overexpression of the epidermal growth factor receptor (EGFr) gene. We have selectively targeted the EGFr in human glioblastoma cells with kinase-deficient mutants of the erbB family derived from the ectodomain of the Neu oncogene that are able to form heterodimers with EGFr and inhibit EGFr-dependent phenotypes. In EGFr-positive U87MG human glioblastoma cells, expression of the Neu ectodomain inhibits EGF-, but not platelet-derived growth factor-, induced DNA synthesis; inhibits cell proliferation in the presence of EGF, but not platelet-derived growth factor; inhibits the ability of U87MG to form colonies in soft agar; and inhibits transforming efficiency in athymic mice. These studies establish that EGFr-mediated signal transduction is important in the maintenance of malignant glioma, and that trans receptor inhibition is a novel way to abrogate abnormal growth of these tumors. Neu ectodomains will be useful in determining the manner in which the EGFr contributes to glial tumorigenesis and in the design of pharmaceuticals that disable erbB family oncoproteins. In addition, these studies provide a rationale for the application of the Neu ectodomain in gene therapy approaches to human malignant glioma and, potentially, to other systemic epithelial malignancies expressing erbB family receptors.
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PMID:Trans receptor inhibition of human glioblastoma cells by erbB family ectodomains. 909 79

Antisense oligodeoxynucleotides offer potential as therapeutic agents to inhibit gene expression. Recent evidence indicates that oligodeoxynucleotides designed to target specific nucleic acid sequences can interact nonspecifically with proteins. This report describes the interactive capabilities of phosphorothioate oligodeoxynucleotides of defined sequence and length with two essential protein tyrosine receptors, flk-1 and epidermal growth factor receptor (EGFR), and their effects on receptor signaling in a transfected and tumor cell line, respectively. Phosphorothioate oligodeoxynucleotides bound to the cell surface, as demonstrated by fluorescence-activated cell-sorter analyses (FACS), and perturbed receptor activation in the presence and absence of cognate ligands, EGF (EGFR) and vascular endothelial growth factor (flk-1), in phosphorylation assays. Certain phosphorothioate oligodeoxynucleotides interacted relatively selectively with flk-1 and partially blocked the binding of specific anti-receptor monoclonal antibodies to target sites. They stimulated EGFR phosphorylation in the absence of EGF but antagonized ligand-mediated activation of EGFR and flk-1. In vivo studies showed that a nonspecific phosphorothioate oligodeoxynucleotide suppressed the growth of glioblastoma in a mouse model of tumorigenesis. These results emphasize the capacity of phosphorothioate oligodeoxynucleotides to interact with cells in a sequence-selective nonantisense manner, while associating with cellular membrane proteins in ways that can inhibit cellular metabolic activities.
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PMID:Cell-surface perturbations of the epidermal growth factor and vascular endothelial growth factor receptors by phosphorothioate oligodeoxynucleotides. 917 51

A novel gene was identified recently at chromosome 10q23, named PTEN or MMAC1, and based on several criteria it was designated as a potential human tumor suppressor gene. Loss of heterozygosity affecting this region of 10q is observed in several cancer types, especially glioblastoma, and inactivating mutations of the PTEN/MMAC1 gene are found in some of these cancers as well as cell lines and xenografts. Breast cancer is among the tumor types in which mutations are documented, and germline mutations of the gene appear to be responsible for the rare autosomal dominant familial cancer syndrome known as Cowden disease, which includes breast cancer among its clinical features. To further determine the role that PTEN/MMAC1 mutations may play in breast tumorigenesis, the entire coding region was screened for mutations in 54 unselected primary breast cancers. Two mutations were identified, a somatic 2-bp deletion in an apparently sporadic breast cancer, and a germ-line 4-bp deletion in a breast cancer patient with a clinical history consistent with Cowden disease. These data indicate that somatic mutations of PTEN/ MMAC1 occur in only a small fraction of primary breast cancers and confirm the role of this gene in the etiology of Cowden disease. Evidence is also presented suggesting that numerous polymorphisms and missense variants exist in the PTEN/MMAC1 transcript.
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PMID:Mutation analysis of the putative tumor suppressor gene PTEN/MMAC1 in primary breast carcinomas. 928 66

The insulin-like growth factor I receptor (IGF-IR) plays an important role in cell transformation and in protection from apoptosis. Although the wild-type IGF-IR generally has an antiapoptotic effect, there are reports that its COOH terminus may actually generate a proapoptotic signal. Three different expression plasmids, all coding for the COOH-terminal sequences of the human IGF-IR, MyCF, CF, and MyKCF, were stably transfected into human ovarian carcinoma CaOV-3 cells. All three plasmids had no effect on monolayer growth but strongly inhibited colony formation in soft agar. Only one of the plasmids, MyCF, expressing the last 112 amino acids of the IGF-IR and carrying a myristylation signal, caused large-scale apoptosis of CaOV-3 cells in vivo and abrogation of tumorigenesis in nude mice. The plasmid expressing the MyCF sequence was also introduced into human glioblastoma T98G cells, where it decreased the clonogenicity of cells, caused a marked inhibition of colony formation in soft agar, and induced apoptosis in vivo. A double mutation at residues 1293 and 1294 of MyCF completely abrogated its inhibitory and proapoptotic activities. Neither the autophosphorylation of the IGF-IR nor the tyrosyl phosphorylation of IRS-1 was affected by the expression of the MyCF plasmid. These and other findings suggest that a stably expressed myristylated COOH terminus of the IGF-IR can induce apoptosis in human tumor cells in vivo and inhibit tumorigenesis in nude mice by a mechanism that avoids the protective effect of the IGF-IR.
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PMID:Inhibition of tumorigenesis and induction of apoptosis in human tumor cells by the stable expression of a myristylated COOH terminus of the insulin-like growth factor I receptor. 962 92

Loss of heterozygosity (LOH) analysis has repeatedly implicated the 10q24-26 region as the site of tumor suppressor genes involved in the development of malignant human gliomas. However, deletions of this kind are generally too big to pinpoint the critical genes involved. On the other hand, chromosome translocations frequently interrupt genes important in the development of the phenotype. We have screened a series of cell lines and cultures from primary human brain tumors for translocations involving chromosomes 10 and 19 by using fluorescence in situ hybridization (FISH) and chromosome-specific paints. The T98G cell line carries an apparently reciprocal t(10;19)(q24;q13) translocation, the breakpoints on chromosomes 10 and 19 occurring in a region frequently showing LOH in gliomas as well as oligodendrogliomas and astrocytomas. One glioblastoma tumor, CCF 4, also showed a subtle translocation of chromosome 10 material into the long arm of chromosome 11. FISH analysis of these rearrangements showed that the chromosome 10-specific yeast artificial chromosome (YAC) 912C7 spans the translocation breakpoint in T98G cells and is also present in the material translocated from chromosome 10 in tumor CCF 4. The translocation breakpoint in 19q13 in T98G occurs within a 500-kb region of YAC 751E12. These translocation breakpoints are within the regions showing frequent LOH in brain tumors and provide a more refined tool for the identification of genes in this region involved in tumorigenesis.
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PMID:Molecular definition of chromosome translocations involving 10q24 and 19q13 in human malignant glioma cells. 968 32

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

Despite extensive characterization of genetic changes in gliomas, the underlying etiology of these tumors remains largely unknown. Spontaneous DNA damage due to hydrolysis, methylation, and oxidation is a frequent event in the brain. Failure of DNA repair following this damage may contribute to tumorigenesis of gliomas. Uracil DNA glycosylase (UDG), an enzyme which excises uracil from DNA, is an important component of the base excision repair pathway. The sequence of a human homologue of uracil DNA glycosylase gene (UNG) has been recently identified. We performed PCR-based SSCP mutational analysis of UNG in 11 sporadic gliomas (six glioblastomas, two anaplastic astrocytomas, and three oligodendrogliomas) and eight glioblastoma cell lines. One out of six sporadic glioblastomas had a point mutation in exon 3, which resulted in a missense mutation in codon 143. None of the eight glioblastoma cell lines or the five non-glioblastoma sporadic gliomas showed a mutation. Genetic alterations of UNG may play a role in the development of a subset of primary glioblastomas.
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PMID:Mutation of the uracil DNA glycosylase gene detected in glioblastoma. 985 92

Angiogenesis is a prerequisite for solid tumor growth. Glioblastoma multiforme, the most common malignant brain tumor, is characterized by extensive vascular proliferation. We previously showed that transgenic mice expressing a GFAP-v-src fusion gene in astrocytes develop low-grade astrocytomas that progressively evolve into hypervascularized glioblastomas. Here, we examined whether tumor progression triggers angiogenetic signals. We found abundant transcription of vascular endothelial growth factor (VEGF) in neoplastic astrocytes at surprisingly early stages of tumorigenesis. VEGF and v-src expression patterns were not identical, suggesting that VEGF activation was not only dependent on v-src. Late-stage gliomas showed perinecrotic VEGF up-regulation similarly to human glioblastoma. Expression patterns of the endothelial angiogenic receptors flt-1, flk-1, tie-1, and tie-2 were similar to those described in human gliomas, but flt-1 was expressed also in neoplastic astrocytes, suggesting an autocrine role in tumor growth. In crossbreeding experiments, hemizygous ablation of the tumor suppressor genes Rb and p53 had no significant effect on the expression of VEGF, flt-1, flk-1, tie-1, and tie-2. Therefore, expression of angiogenic signals is an early event during progression of GFAP-v-src tumors and precedes hypervascularization. Given the close similarities in the progression pattern between GFAP-v-src and human gliomas, the present results suggest that these mice may provide a useful tool for antiangiogenic therapy research.
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PMID:Early induction of angiogenetic signals in gliomas of GFAP-v-src transgenic mice. 1002 15

The role of p53 gene mutations in the formation or progression of human astrocytic tumors is controversial. We studied the distribution pattern of p53 immunoreactivity and analyzed p53 gene mutations to define the significance of p53 gene mutations in astrocytoma tumorigenesis or malignant progression. Twenty-three astrocytic tumors were evaluated with immunohistochemistry, single-strand conformation polymorphism (SSCP) analysis, and sequence analysis. We also searched MEDLINE to collect data on p53 gene mutation frequencies in astrocytic tumors in order to evaluate the association of p53 mutations and tumor grade. Strong immunoreactivity with a diffuse clustering pattern was found in three of five glioblastomas and seven of 12 anaplastic astrocytomas. Three of four low-grade astrocytomas were immunonegative. The p53 immunopositive cells in the only positively staining low-grade astrocytoma in our study appeared sparsely scattered. The results of immunostaining suggested that clonal expansion was associated with astrocytoma progression. Mutations of the p53 gene were detected in four of the 23 astrocytomas (one glioblastoma and three anaplastic astrocytomas). In the genetic data analysis, 76 of 367 astrocytomas had p53 gene mutations. A significantly greater p53 gene mutation frequency was found in anaplastic astrocytomas or glioblastomas than in the low-grade astrocytomas. The results of these immunohistochemical and genetic studies support the view that p53 gene mutation is associated with the malignant progression from low-grade to high-grade astrocytomas rather than with tumor initiation or promotion.
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PMID:Expression and mutation analysis of the p53 gene in astrocytoma. 1006 71

The development of a malignant tumor involves the progressive acquisition of mutations and epigenetic abnormalities in multiple genes that have highly diverse functions. Some of these genes code for pathways of signal transduction that mediate the action of growth factors. The enzyme protein kinase C plays an important role in these events and in the process of tumor promotion. Therefore, we examined the effects of three inhibitors of protein kinase C, CGP 41251, RO 31-8220, and calphostin C, on human glioblastoma cells. These compounds inhibited growth and induced apoptosis; these activities were associated with a decrease in the level of CDC2 and cyclin B1/CDC2-associated kinase activity. This may explain why the treated cells accumulated in G2-M. In a separate series of studies, we examined abnormalities in cell cycle control genes in human cancer. We have found that cyclin D1 is frequently overexpressed in a variety of human cancers. Mechanistic studies indicate that cyclin D1 can play a critical role in carcinogenesis because: overexpression enhances cell transformation and tumorigenesis; introduction of an antisense cyclin D1 cDNA into either human esophageal or colon cancer cells reverts their malignant phenotype; and overexpression of cyclin D1 can enhance the amplification of other genes. The latter finding suggests that cyclin D1 can enhance genomic instability and, thereby, the process of tumor progression. Therefore, inhibitors of the function of cyclin D1 may be useful in both cancer chemoprevention and therapy. We obtained evidence for the existence of homeostatic feedback loops between cyclins D1 or E and the cell cycle inhibitory protein p27Kip1. On the basis of these and other findings, we hypothesize that, because of their disordered circuitry, cancer cells suffer from "gene addiction" and "gene hypersensitivity," disorders that might be exploited in both cancer prevention and therapy.
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PMID:Disorders in cell circuitry associated with multistage carcinogenesis: exploitable targets for cancer prevention and therapy. 1006 76


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