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)

Continued monitoring of a family for new malignant tumors has revealed diverse immunological and neoplastic disorders during a 15-year period. In 1966, the proband developed lymphoma. In 1975, his antibody titers to Epstein-Barr virus (EBV) became elevated, and again, he developed a malignant lymphoma. He also had borderline hypo-immunoglobulin A, died of glioblastoma multiforme in 1977, and at autopsy, had adenomatous colonic polyps. His eldest brother has normal immunoglobulin levels, but developed immune thrombocytopenia in 1973 and had elevated EBV antibody titers in 1980. Another brother had hypo-immunoglobulin A, thymoma in 1965, and adenomas and adenocarcinoma of the colon. Two other brothers succumbed to glioblastoma in 1968 and 1969. The father of the proband had bronchiectasis in 1952, hypo-immunoglobulin M documented in 1972, and elevated EBV antibody titers 5 years preceding development of a malignant lymphoma. The latter contained 10 EBV genome equivalents/cell by EBV viral DNA/DNA reassociation kinetics analysis. The proband's grandmother had died of an immunoglobulin G-secreting myeloma in 1977, and his grandfather had borderline low immunoglobulin M, elevated EBV antibody titers, and hypopharyngeal carcinoma in 1980. Predisposition to oncogenesis in this family was probably inherited.
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PMID:Diverse familial malignant tumors and Epstein-Barr virus. 627 70

Some reports have demonstrated that selenium can inhibit tumorigenesis in some tissues of animal. However, little is known about the inhibitory effect on malignant tumor cells of brain. The purpose of our study was to determine the biological effect of selenium on growth of rat glioma and human glioblastoma cell lines. Cell lines C6 and A172 were obtained from Japanese Cancer Research Resources Bank, Tokyo, Japan (JCRB). Cells were cultured in Dulbecco's Modified Eagle's Medium (DMEM) supplemented with 10% fetal calf serum at 37 degrees C in a humidified atmosphere of air and 5% CO2. Antiproliferative effects of selenium were evaluated using growth rate assay quantifying cell number by MTT assay. An antiproliferative effect of selenium was found in two cell lines, which was more effective on human A172 glioblastoma and less effective on rat C6 glioma.
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PMID:Effect of selenium on malignant tumor cells of brain. 757 18

Expression of the RCK gene, which is a target gene on 11q23 of the t(11;14) (q23;q32) translocation in the B-cell lymphoma cell line RC-K8, was studied by Northern and Western blot analyses. The RCK gene product is a member of the D-E-A-D box protein/RNA helicase family. With the use of Northern blot analysis, a 7.5-kb transcript of the RCK gene was shown to be expressed ubiquitously in human and mouse tissues. Polyclonal antibodies against the RCK gene product were raised, and the RCK gene expression pattern was examined in human and mouse tissues. Two different polyclonal anti-rck antibodies detected a specific 54-kilodalton product named rck/p54 in the majority of human and mouse tissues tested by Western blot analysis. However, rck/p54 was shown to be very low in the human brain and was not detectable in lumbar muscle and lung tissues, although RCK mRNA is abundantly present in these tissues. It is of interest that malignant transformed human cells arising from tissues with low or no expression of rck/p54, such as neuroblastoma, glioblastoma, rhabdomyosarcoma, and lung cancer cell lines, produced a moderate amount of rck/p54 protein, suggesting that rck/p54 plays a role in tumorigenesis. In addition, the rck/p54 protein was localized to cytoplasm by immunostaining with the use of laser microscopy and by subcellular fractionation.
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PMID:The rck/p54 candidate proto-oncogene product is a 54-kilodalton D-E-A-D box protein differentially expressed in human and mouse tissues. 761 84

We have investigated whether there is a quantitative relationship between the insulin-like growth factor I receptor (IGF-IR), the extent of apoptosis in vivo, and tumorigenesis. C6 rat glioblastoma cells were treated with increasing concentrations of antisense oligodeoxynucleotides to the IGF-IR RNA. The extent of apoptosis in vivo is correlated to the decrease in IGF-IR levels and, in turn, tumorigenesis in nude mice is correlated to the fraction of surviving cells. In syngeneic rats, a host response leads to complete inhibition of tumorigenesis. These findings establish, for the first time on a quantitative basis, the relationship between IGF-IR levels and the extent of apoptosis, as well as the relationship between the initial apoptotic event and the time of appearance of transplantable tumors.
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PMID:Correlation between apoptosis, tumorigenesis, and levels of insulin-like growth factor I receptors. 764 Nov 85

Mutations in the receptor for the epidermal growth factor provide valuable insight into mechanisms of growth control. Oncogenic mutants of this receptor tyrosine kinase cause erythroid leukemia, fibrosarcoma, angiosarcoma, glioblastoma, and melanoma. Mutations in the avian protooncogene occur by retroviral mechanisms. Deletion of the ligand-binding domain results in erythroblastosis, while additional mutations in cytoplasmic structures broaden the disease potential to other cell types. A carboxyl-terminal structure of erbB oncogenes modulates growth responses in a complex, cell-specific manner; this tissue-specificity region appears to promote growth in erythroblasts and to produce trans-dominant inhibition in fibroblasts. Human glioblastoma multiforme frequently contains receptor mutations that are reminiscent of avian oncogenes. In hereditary melanoma of Xiphophorus, aberrant regulation of transcription by a recombinant promoter determines tissue-specific tumorigenesis. The diversity of oncogenic mutations raises important questions concerning the roles of several receptor structures. The extracellular domain inhibits the receptor when unoccupied by ligand, for example, through a mechanism that is unknown. The auto-phosphorylation sites are dispensable for transformation, so their function in neoplastic growth is unclear. The carboxyl-terminal region promotes or blocks transformation in different tissues, suggesting complex regulation by unknown cellular factors. These issues are critical to understanding of the mechanisms of receptor activation and tissue tropism for this family of oncogenes.
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PMID:Tissue-specific transformation by oncogenic mutants of epidermal growth factor receptor. 771 Nov 15

A monoclonal antibody 6DS1 against a human glioblastoma multiforme cell line U-87MG recognizes a tumor-specific, cell surface antigen of human glioblastoma cell lines. Partial cross-reactivity is observed with two human neuroblastoma cell lines, SK-N-SH and SK-N-MC, with little or no reactivity towards a rat glioma cell line C6 or normal human adult and fetal brain tissues. The antibody recognizes an antigen of molecular mass 38 kDa as inferred from Western blot analysis and sodium dodecyl sulfate-polyacrylamide gel electrophoresis of the immunoprecipitate. The monoclonal antibody 6DS1 inhibits both the attachment to substratum and growth of U-87MG cells. It strongly cross-reacts with xenotransplants of U-87MG cells and inhibits tumorigenesis (subcutaneous implants of U-87MG cells) in nude mice.
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PMID:Monoclonal antibody against human glioblastoma multiforme (U-87MG) immunoprecipitates a protein of molecular mass 38 kDa and inhibits tumor growth in nude mice. 782 86

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

Levels of protein kinase C (PKC) isoforms in eight human glioblastoma cell lines and two normal human glial cell cultures were determined. Earlier studies identified PKC-alpha and PKC-gamma in these cell lines but PKC-beta was not present. In this study, PKC-epsilon and PKC-zeta are demonstrated immunologically in these cell lines and also in two normal human glial cell cultures. Protein kinase C-delta was not present. When levels of the four isoforms in the tumor cells were compared to levels in the normal cells, no increase was observed in PKC-alpha or PKC-gamma, but PKC-epsilon was elevated three to 30 times in six of the eight tumors, and PKC-zeta was elevated approximately two times in all of the tumors. Incubation of cell line A172 with phorbol ester for 6 hours resulted in a 48-fold maximum increase in the nuclear PKC-epsilon and a sevenfold increase in the plasma membrane fraction with no change in the cytoplasmic fraction. A similar incubation for 4 hours produced a 0.5- to onefold increase of PKC-zeta in cytoplasmic, nuclear, and plasma membrane fractions. Other researchers have shown that overexpression of PKC-epsilon in fibroblasts results in tumorigenesis, and that blocking PKC-zeta function inhibits deoxyribonucleic acid synthesis. These data suggest that alteration in the expression of PKC-epsilon and PKC-zeta could be a factor in the conversion of normal glial cells to glioblastomas.
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PMID:The identification of four protein kinase C isoforms in human glioblastoma cell lines: PKC alpha, gamma, epsilon, and zeta. 793 20

Mutations in the p53 gene, which codes for a cell division regulatory protein, have been identified in approximately one-third of adult astrocytomas. We evaluated 35 astrocytic tumors (17 pilocytic, 4 diffuse low grade, 12 anaplastic, and 2 glioblastoma) in pediatric patients for p53 mutations, using polymerase chain reaction-single-stranded conformation polymorphism analysis as a screening technique. Additionally, those tumors identified with homozygosity in the area of the p53 gene on chromosome 17 by Southern blotting were sequenced to look for p53 mutations. No tumors were identified with polymerase chain reaction-single-stranded conformation polymorphism analysis shifts indicative of mutations in the p53 gene. Five of 21 tumors were homozygous in the region of the p53 gene on chromosome 17; no mutations in exons 5 to 8 were found in any of these tumors. The frequency of p53 mutation in pediatric astrocytomas is significantly less than the frequency for adult tumors, regardless of tumor grade. Furthermore, the frequency of p53 mutations in high-grade astrocytomas is significantly lower in pediatric tumors than in adult tumors. These results suggest that p53 is not important in the oncogenesis of pediatric astrocytomas. Oncogenesis in pediatric astrocytomas may occur by different mechanisms than those of similar tumors in adults.
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PMID:The lack of a role for p53 in astrocytomas in pediatric patients. 808 7

A 56-year-old man is reported who had suffered a frontal, frontobasal open craniocerebral injury four years ago. He presented for treatment with a glioblastoma of which the location and extent precisely corresponded to that of the prior brain injury. After surgical exposure of the tumor, we had the impression that the tumor initially showed granulating growth from the frontal injury site and had then given rise to more highly vascularized and also necrotizing tumor tissue spreading into the frontal medullary layer with typical glioblastoma characteristics. In view of the surgical site, it is logical to consider a tumorigenesis after cerebral trauma, which is also corroborated by the histological results, since more proliferative tumor growth was found near to the injury and more highly vascularized but also necrotizing (i.e. more typical of a glioblastoma) tumor growth far away from the injury. After the comparison of our observation with the corresponding cases in the literature, it is shown that there is at least in part a causal correlation between the trauma and tumorigenesis: in the previously healthy patient, the tumor developed precisely in the region of the injury (with detection of destroyed brain tissue) after a sufficiently long time interval. Near to the site of damage, it showed granulative growth with a low degree of vascularization, and then passed into the typical glioblastoma. Observations of genetic changes in glioblastoma patients is not inconsistent with this possible trauma genesis, but render it probable that trauma is the factor which can give rise to tumor growth in a corresponding susceptibility to tumorigenesis.
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PMID:[The traumatic origin of a glioblastoma]. 812 88


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