UMLS:C0017638 - FACTA Search

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Query: UMLS:C0017638 (glioma)
30,880 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The influence of the neurotoxic agents lead and cadmium on human glioma cells (86HG-39, 87HG-31, 88HG-14, and A172) and rat glioma cells (F98 and RG2) was investigated in vitro by means of immunocytochemistry and growth data. Both heavy metals increased the growth rate, decreased the expression of differentiation markers (glial fibrillary acidic protein, S100 protein), and increased the expression of the malignancy marker transferrin receptor. The results indicate a decrease in the level of differentiation and impairment of glial cell function. Consequently, the neurotoxicity of Pb and Cd may be attributed to direct action not only on neurons but also on glial cells necessary for neuronal function. Possible molecular mechanisms are discussed.
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PMID:Modulation of glial cell differentiation by exposure to lead and cadmium. 152 29

The human glioblastoma-derived cell lines 86HG-39, 87HG-28 and 87HG-31, used for the production of monoclonal antibodies (mAbs) against glioma-associated antigens (GAA), were characterized in terms of morphology, growth behaviour, chromosomes and antigen expression. In the primary tumours, differential expression of glial fibrillary acidic protein, S100 protein, Leu-7 and GAA as defined by mAbs MUC 2-39, MUC 2-63 and MUC 8-22 was demonstrated. Receptors for epidermal growth factor (EGFr) and nerve growth factor (NGFr) were found in many cells in short-term cultures, but the transferrin receptor (Tr) was found in only a few cells of 87HG-28. In permanent cell lines, differentiation antigens and EGFr decreased and Tr increased markedly. NGFr and GAA remained stable. Transplantation tumours of 86HG-39 were partly positive for Tr and GAA. Chromosomal analysis revealed that the 86HG-39 and 87HG-28 cell lines had a hypodiploid or diploid stem line with lines in the hypotetraploid to tetraploid region for 50 in vitro passages. The 87HG-31 cell line had chromosomal patterns in the hypotriploid to triploid region. A gain of chromosomes was seen in the groups C7, C8, C10, D14, F19, F20, G21, G22. The variability of antigens in these tumours and especially during long-term cultivation probably reveals an ability to influence the growth of malignant glioma cells via the respective effector molecules.
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PMID:Morphological, immunocytochemical and growth characteristics of three human glioblastomas established in vitro. 170 26

The distribution of transferrin receptor (TfR) in normal human brain-tissue obtained at autopsy and in brain-tumor biopsy specimens from 27 patients was determined by immunohistochemistry using two specific murine monoclonal antibodies against human TfR. The tumors studied included 10 glioblastomas multiforme (GBM's), nine other glial tumors, and eight meningiomas. In normal brain, TfR was detected primarily in endothelial cells; rare glial cells also contained immunoreactive product. All tumors contained TfR-positive cells, although the intensity (number of cells stained) and pattern (focal vs. diffuse) of staining varied with the histopathological type of the tumor. Among gliomas, the most intense staining was seen in GBM's, especially in areas of pseudopalisading where virtually all cells were stained. A rough correlation between tumor grade, number of positively stained cells, and staining pattern was seen in the other astrocytic tumors. By contrast, all meningiomas demonstrated an identical and characteristic focal staining pattern. Considering the differential immunostaining for TfR between normal and neoplastic tissue, the authors conclude that TfR may be an appropriate target for monoclonal antibody-directed brain-tumor immunotherapy, especially in more malignant tumors such as GBM's.
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PMID:Transferrin receptor in normal and neoplastic brain tissue: implications for brain-tumor immunotherapy. 184 10

The cytotoxic effects of an antihuman transferrin receptor monoclonal antibody-ricin A-chain conjugate (anti-TfR-A) immunotoxin on glioma cells were assessed in vitro. Five human glioma cell lines were studied; three were derived from surgical explants (MG-1, MG-2, MG-3) and two were well characterized established glioma cells (U-87 MG, U-373 MG). The C6 rat glioma line served as a nonhuman control. One of six lines (U-373) expressed glial fibrillary acidic protein, as assessed by immunohistochemistry. All five human lines expressed human transferrin receptor, as assessed by flow cytometry; no human transferrin receptor was demonstrable on rat C6 cells. Potent inhibition of protein synthesis was found after an 18-h incubation with anti-TfR-A. Fifty % inhibitory concentration (IC50) values for human glioma cells ranged from 1.9 X 10(-9) to 1.8 X 10(-8) M. In contrast, no significant inhibition of leucine incorporation was observed when anti-TfR-A was tested on rat cells (IC50 greater than 10(-7) M) or when a control immunotoxin directed against carcinoembryonic antigen was substituted for anti-TfR-A on human glioma cells (IC50 greater than 10(-7) M). Coincubation with the carboxylic ionophore monensin (10(-7) M) decreased the IC50 of anti-TfR-A against human glioma lines from 16- to 842-fold (range, 7.0 X 10(-12) to 1.5 X 10(-10) M). In contrast, an IC50 of greater than 10(-7) M was obtained when C6 cells were incubated with anti-TfR-A and monensin. Anti-TfR-A immunotoxins potentiated by monensin are extremely potent in vitro cytotoxins for human glioma cells.
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PMID:Potent cytotoxicity of an antihuman transferrin receptor-ricin A-chain immunotoxin on human glioma cells in vitro. 220 35

A variety of tumors with different histologic types are included in a group of brain tumors. Although each histologic type of tumor has its own range of malignancy, the prognosis seems to be affected by several clinical, histologic and cell-biological factors. For example, relative survival rate of patients with glioblastoma is lower if the patient is older than 50 or 60 years. The leptomeningeal dissemination of glioma cells is a sign of poor prognosis. The presence of necrotic foci in the astrocytic tumors suggests shorter astrocytic tumors suggests shorter survival. Using a monoclonal antibody to bromodeoxyuridine (BrdU), the growth activity of the tumor can be estimated by BrdU labeling index (BrdU-LI, %). Higher BrdU-LI is correlated with more malignant histologic features in astrocytic tumors. In meningiomas, higher BrdU-LI is correlated with a more frequent or rapid recurrence of the tumor. The significance of growth factor receptors and oncogene of growth factor receptors and oncogene products as a cell-biologic marker of malignancy was investigated with an immunohistochemical method. Transferrin receptor was demonstrated in all tumors, and epidermal growth factor in about 40% of astrocytic tumors. The immunoreaction to c-myc oncogene product was detected in most astrocytic tumors; with higher intensity in anaplastic astrocytomas and glioblastomas than in low-grade astrocytomas. The role of these markers in the prognosis of brain tumors is, however, still unclear. Total or subtotal resection of glioblastoma results in longer resection of glioblastoma results in longer survival. Both postoperative radiotherapy and chemotherapy are effective. However, maintenance of chemotherapy longer than longer than 2 years does not significantly improve the prognosis.
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PMID:[Factors affecting the prognosis of brain tumors]. 284 33

We have examined the subcellular distribution of synapsins and synaptophysin in density gradients from synapsin- and vector-transfected NG108-15 cells, since we recently found that transfection of synapsin IIb cDNA into neuroblastoma x glioma hybrid cells (NG108-15) resulted in cell lines that had a more neuronal phenotype than controls. The increase in synapsins and synaptophysin in the transfected cells was maximal in the region of the gradient containing small synaptic vesicles. The transferrin receptor, a marker for early endosomes, did not increase in the synapsin-containing fractions in the transfected cells. Secretogranin I, a soluble protein stored in and secreted from large dense cored vesicles, showed a very pronounced increase in the dense regions of gradients from transfected cells. These subcellular fractionation data suggest a possible role for the synapsins in the regulation of synaptic vesicle function.
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PMID:Increase in synaptic vesicle proteins in synapsin-transfected NG108-15 cells: a subcellular fractionation study. 762 29

Pharmacokinetics and tissue distribution of daunomycin and different liposomal formulations of daunomycin were determined. Special emphasis was thereby given to immunoliposome-mediated drug delivery. Three different types of 85 nm liposomes were used for this study: 1) conventional liposomes, 2) liposomes sterically stabilized with 2000 Dalton polyethylene glycol and 3) immunoliposomes prepared by coupling a control IgG2a or monoclonal antibody to the distal end of the polyethylene glycol spacer. The antibody used was the OX26 monoclonal antibody to the rat transferrin receptor. Daunomycin and liposomes were administered by i.v. injection to the rat. Daunomycin and daunomycin in conventional liposomes were rapidly cleared from the plasma compartment. When compared to the free drug, daunomycin in conventional liposomes did accumulate to higher levels in liver and spleen and to lower levels in heart, lung and liver. In contrast, daunomycin in liposomes sterically stabilized with polyethylene glycol could not be detected in heart, lung, kidney, liver and spleen. Using nonspecific IgG2a isotype immunoliposomes, tissue concentrations of immunoliposomes were reduced by at least a factor of two. Attachment of more than 29 OX26 monoclonal antibodies per liposome did not increase tissue levels in heart, kidney or lung. Tissue levels of OX26 immunoliposomes were reduced in all organs by coinjection of unbound OX26. In vitro, endocytosis of fluorescent immunoliposomes by RG2 rat glioma cells was observed. These data indicate that receptor mediated drug delivery to different tissues can be achieved using OX26 conjugated immunoliposomes.
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PMID:Receptor mediated delivery of daunomycin using immunoliposomes: pharmacokinetics and tissue distribution in the rat. 931 70

Human brain gliomas overexpress the receptor for epidermal growth factor (EGF), and radiolabeled EGF is a potential peptide radiopharmaceutical for imaging human brain tumors, should this peptide be made transportable through the blood-brain barrier (BBB) in vivo. Peptide drug delivery to the brain may be facilitated by conjugating peptide radiopharmaceuticals to BBB drug delivery vectors such as the OX26 monoclonal antibody (MAb), which undergoes receptor-mediated transcytosis through the BBB via the brain capillary endothelial transferrin receptor. EGF was biotinylated with NHS-XX-biotin, where NHS = N-hydroxysuccinimide and -XX- = bis (aminohexanoyl) spacer arm. The [125I]EGF-XX-biotin rapidly bound to C6 rat glioma cells transfected with the human EGF receptor. However, no binding to the C6 EGF receptor was detected when the [125I]EGF-XX-biotin was bound to a conjugate of streptavidin (SA) and the OX26 MAb. An alternative linker strategy using poly(ethylene glycol) (PEG) of 3400 Da molecular mass (PEG3400) was evaluated, wherein EGF was monobiotinylated with NHS-PEG3400-biotin. Attachment of the [125I]EGF-PEG3400-biotin to the OX26/SA conjugate did not impair binding of the construct to the EGF receptor in C6 glioma cells. The length of the -PEG- spacer arm and the -XX- spacer arm was >200 atoms and 14 atoms, respectively. These studies demonstrate that the use of the extended PEG linker releases steric hindrance of MAb transport vectors on binding of EGF to its cognate receptor on glioma cells. Attachment of EGF peptide radiopharmaceuticals to BBB drug delivery systems such as the OX26 MAb using extended PEG linkers allows for retention of the bifunctionality of the conjugate with binding to both EGF and transferrin receptors.
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PMID:Retention of biologic activity of human epidermal growth factor following conjugation to a blood-brain barrier drug delivery vector via an extended poly(ethylene glycol) linker. 989 61

Epidermal growth factor (EGF) is a potential peptide radiopharmaceutical for detection of brain tumors, because many human gliomas overexpress the EGF receptor (EGFR). The transport of EGF to the brain, however, is restricted by the blood-brain barrier (BBB). The purpose of the present study was to develop a vector-mediated brain delivery system for radiolabeled EGF. Human EGF was monobiotinylated with NHS-PEG3400-biotin, where NHS is N-hydroxysuccinimide and PEG3400 is poly(ethylene glycol) of 3400 Da molecular mass. EGF-PEG3400-biotin was radiolabeled with either 125I or 111In through the metal chelator, diethylenetriaminepentaacetic acid (DTPA). The radiolabeled EGF was then conjugated to a BBB delivery vector comprised of a complex of the OX26 monoclonal antibody (MAb) to the rat transferrin receptor, which was coupled to streptavidin (SA). Following intravenous injection in rats, the 125I conjugate was rapidly degraded in vivo, while the 111In conjugate was metabolically stable. The brain delivery of [111In]DTPA-EGF-PEG3400-biotin was enabled by conjugation with OX26/SA and was optimized by co-injection of unlabeled EGF to saturate EGF receptors in the liver. The specific binding of the [111In]DTPA-EGF-PEG3400-biotin conjugated to OX26/SA to the EGF receptor was confirmed in C6 rat glioma cells, which had been transfected with a gene encoding for the human EGF receptor under the regulation of a dexamethasone-inducible promoter. In vivo studies of C6-EGFR experimental tumors in Fischer 344 rats demonstrated successful brain imaging only when the peptide radiopharmaceutical was conjugated to the BBB delivery system, although the C6-EGFR tumors did not express EGFR in vivo. In conclusion, these studies describe the molecular formulation of a peptide radiopharmaceutical that can be used for imaging brain tumors behind the BBB.
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PMID:Epidermal growth factor radiopharmaceuticals: 111In chelation, conjugation to a blood-brain barrier delivery vector via a biotin-polyethylene linker, pharmacokinetics, and in vivo imaging of experimental brain tumors. 1034 84

Present day imaging of brain tumors requires a disrupted blood-brain barrier (BBB). However, the BBB is intact in the early stages of brain tumor growth, when diagnosis is most critical. Relative to normal brain, brain tumor cells frequently overexpress peptide receptors, such as the receptor for epidermal growth factor (EGF). Peptide radiopharmaceuticals such as radiolabeled EGF could be used to image early brain tumors, should these radiopharmaceuticals be made transportable through the BBB. The present studies describe a bifunctional molecule that contains both biologically active human EGF radiolabeled with 111In and an anti-transferrin receptor monoclonal antibody that undergoes transcytosis through the BBB via the endogenous transferrin transport system. The two domains of the bifunctional conjugate are separated by a Mr 3400 polyethyleneglycol linker, which releases steric hindrance and allows the conjugate to bind to both the EGF receptor, to image the brain tumor, and to the transferrin receptor, to enable transport through the BBB. Successful imaging of experimental brain tumors with this system is demonstrated in nude rats bearing cerebral implants of human U87 glioma.
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PMID:Imaging brain tumors by targeting peptide radiopharmaceuticals through the blood-brain barrier. 1062 7

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