Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0017638 (glioma)
 30,880 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Many studies have suggested the possible existence of tumor-associated antigens in brain gliomas. Strong evidence for the existence of such cell determinants was provided by recent investigations using hybridoma technology. The possibility of obtaining monoclonal antibodies (MAbs) against glioma-associated antigens should help to allow their identification, purification, and characterization. Utilizing MAbs as reagents of predefined specificity, a number of central and peripheral nervous system antigens could be detected. The molecules recognized by MAbs in glioma cells can be subdivided into four categories: [1] biochemical defined proteins, [2] specificities shared by nervous system-lymphoid cells, [3] oncoembryonic-oncofetal determinants, and [4] tumor-restricted antigens. Of greater significance is the heterogeneity of antigen expression among various individual glioma cells observed in frozen sections of tumor biopsies. Using a panel of MAbs, the phenotypic heterogeneity, i.e., the variation in antigen expression can be documented within and among malignant gliomas and cell lines derived from them. In spite of this the characteristic pattern of antibody binding to brain tumors makes MAbs the potentially best reagents for immuno-histochemical application in surgical neuropathology. Moreover, immuno-cytological screening of tumor cells in the cerebrospinal fluid has also proved to be valuable. The localization of radio-labelled MAbs in experimental and human gliomas growing subcutaneously and intracranially in athymic nude mice were explored by radioscintigraphy and autoradiography. Imaging experiments with 131I-labelled MAbs recognizing epitopes on the glioma cell surface showed high levels of specific activity in xenografts. Preliminary data indicate that administration of 131I-MAbs as well as drug conjugates (daunomycin-MAbs) causes a depression of glioma cell proliferation in vitro as well as delayed tumor growth and thus prolonged survival time of tumor-bearing mice. The mechanisms of antibody delivery and transport of "immunotoxins" from the vascular compartment to intracerebral tumor tissue are presently a subject of discussion. The complexity of this area necessitates comprehensive experimental work in order to define the factors involved in the delivery of MAbs to brain to tumor tissue and thus optimize the rate of blood-to-tumor transport. Current investigations have shown that it is possible to image malignant human gliomas using radio-labelled antibodies. The next step will be to attain target immunotherapy. The use of MAbs as carrier molecules for clinical applications might soon be possible.
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PMID:Monoclonal antibodies in neuro-oncology. 218 45

Chemotaxis is an important step in monocyte recruitment in inflammation, wound healing, and tumor growth. We reported previously that monocyte chemotactic activity secreted by malignant cells and normal smooth muscle cells is associated with a protein or family of proteins that are related to the monocyte-specific smooth muscle cell-derived chemotactic factor (SMC-CF) (Graves, D. T., Jiang, Y. L., Williamson, M. J., and Valente, A. J. (1989) Science 245, 1490-1493). Similar monocyte chemotactic proteins (MCP-1) produced by U-105MG human glioma cells have also been identified (Yoshimura, T., Robinson, E. A., Tanaka, S., Appella, E., Kuratsu, J., and Leonard, E. J. (1989) J. Exp. Med. 169, 1449-1459). We now report that the MCP-1 gene is expressed in MG-63 human osteosarcoma and vascular smooth muscle cells and that SMC-CF antiserum specifically immunoprecipitates proteins synthesized by U-105MG glioma cells. Experiments were undertaken to elucidate the processing pathway of MCP-1/SMC-CF-like proteins in each of these cell types. These experiments demonstrate that larger MCP-1/SMC-CF-like proteins are derived from a Mr = 9000 precursor. Post-translational modification involves the addition of O-linked carbohydrates and sialic acid residues. Differences in carbohydrate processing account for the heterogeneity in MCP-1/SMC-CF-like proteins produced by different cell types. Secretion of these proteins occurs rapidly following processing events in the endoplasmic reticulum-Golgi compartment.
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PMID:Post-translational modification of a monocyte-specific chemoattractant synthesized by glioma, osteosarcoma, and vascular smooth muscle cells. 221 4

A human monoclonal antibody (CLN-IgG) was produced from a human-human hybridoma derived from lymphocytes of a patient with cervical carcinoma. The reactivities of this antibody with various human glioma tissues and cultured glioma cells and the characterization of the antigen recognized by CLN-IgG on malignant glioma cells were analyzed and reported. CLN-IgG reacted with various human glioma cells and glioma tissues, especially glioblastoma, but did not react with normal brain tissues or fetal brain tissues. A large amount of antigen recognized by CLN-IgG was expressed on cell membranes of undifferentiated glioma cells and of glioma cells at the G2/M tumor growth phase in cycling cells. Antigen recognized by CLN-IgG was detected in only one of seven samples of cyst fluid, and was not detected in 27 serum samples or 18 samples of cerebrospinal fluid from glioma patients. CLN-IgG exhibited antibody-dependent cell cytotoxicity against U-25 1 MG glioma cells and primary cultured cells of glioblastomas and anaplastic astrocytomas. These data suggest that the antigen recognized by CLN-IgG might be related to cell proliferation in malignant gliomas. Thus, CLN-IgG might be useful for immunotherapy or immunoimaging of malignant gliomas.
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PMID:Antigen related to cell proliferation in malignant gliomas recognized by a human monoclonal antibody. 223 Sep 72

This investigation attempts to determine whether increased survival time seen when the F98 glioma model is treated with boron neutron capture therapy (BNCT) is a result of inhibition of tumor growth caused by radiation-induced alterations in endothelial cells and normal tissue components. This indirect effect of radiation has been called the tumor bed effect. A series of tumor-bearing rats was studied, using a standardized investigational BNCT protocol consisting of 50 mg/kg of Na2B12H11SH injected intravenously 14 to 17 hours before neutron irradiation at 4 x 10(12) n/cm2. Ten rats, serving as controls, received no treatment either before or after tumor implantation. A second group of 10 rats was treated with BNCT 4 days before tumor implantation; these animals received no further treatment. The remaining group of 10 rats received no pretreatment but was treated with BNCT 10 days after implantation. Histological and ultrastructural analyses were performed in 2 animals from each group 17 days after implantation. Survival times of the untreated control animals (mean, 25.8 days) did not differ statistically from the survival times of the rats in the pretreated group (mean, 25.5 days). The rats treated with BNCT after implantation survived significantly longer (P less than 0.02; mean, 33.2 days) than the controls and the preirradiated animals. Tumor size indices calculated from measurements taken at the time of death were similar in all groups. These results indicate that, with this tumor model, BNCT does not cause a tumor bed effect in cerebral tissue. The therapeutic gains observed with BNCT result from direct effects on tumor cells or on the peritumoral neovascularity.
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PMID:Inhibition of tumor growth in a glioma model treated with boron neutron capture therapy. 223 30

Neoplastic meningitis can result from leptomeningeal dissemination of a variety of cancers. We now report the development of animal models of human neoplastic meningitis and activity of intrathecal 4-hydroperoxycyclophosphamide (4-HC) against the human rhabdomyosarcoma cell line TE-671 and the human glioma cell line D-54 MG grown in the subarachnoid space of athymic rats. The injection of 5 x 10(5) TE-671 or D-54 MG cells resulted in leptomeningeal tumor growth from the base of the brain to the cauda equina. Daily weights and neurological examinations revealed progressive neurological deficits and weight loss, with death occurring between Days 21 and 27 for TE-671 and Days 14 and 26 for D-54 MG. 4-HC toxicity in non-tumor-bearing rats was assessed at dose levels of 2.0, 10.0, 15.0, and 20.0 mM, with clinical and histological evidence of neurotoxicity observed at the 2 highest dose levels. Intrathecal treatment with 4-HC on Day 8 following injection of TE-671 resulted in an increase in median survival of 20% (P = 0.04) at 1.0 mM 4-HC and 41% (P less than 0.001) at 2.5 mM 4-HC. Intrathecal treatment with 4-HC (2.5 mM) on Day 5 following injection of D-54 MG resulted in an increase in median survival of 23% (P = 0.009). These studies show the usefulness of the athymic rat model of human neoplastic meningitis and demonstrate the efficacy in vivo of intrathecally administered 4-HC against a human glioma and a human rhabdomyosarcoma cell line and the lack of toxicity at therapeutic levels of 4-HC in normal athymic rats.
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PMID:Activity of intrathecal 4-hydroperoxycyclophosphamide in a nude rat model of human neoplastic meningitis. 230 44

The 6-day subrenal capsule assay for determining chemotherapeutic sensitivities of brain tumors was studied. Rat glioma 9L and ACNU resistant 9L-2 were transplanted under the renal capsule of normal immunocompetent WKA rats for laboratory investigation. Evaluation of implanted tumor growth till 12 days was performed. The effects of chemotherapeutic agents administered intravenously were evaluated by measuring the growth rate of implanted tumor specimens. The results obtained from SRC were compared with the results from colony forming assay. Both were correlated to each other. On the other hand, histological investigation revealed that implanted human tumor cells had been diminished and implanted tumor was replaced by immunoreactive cells from the host in many cases. These results threw doubt on a reliability of SRC. To avoid this immunoreaction, cyclophosphamide was injected as immunosuppressive agent subcutaneously 24 hours before implantation. In such cases, the growth rates of implanted tumors were increased and histologically the implanted tumor cells existed for 6 days after implantation. Twenty-three malignant brain tumors (malignant astrocytomas 16, metastatic tumors 5, malignant lymphoma 2) were obtained as surgical specimens. Evaluable assay rate of our study were 89%. 15 patients with malignant astrocytomas were studied about correlation between the sensitivities of ACNU and post-operative clinical courses. Overall clinical correlation of 15 cases of malignant astrocytomas was 47%. These results from subrenal capsule assay are not seemed to be beneficial for clinical use. Immunoreactive response when using immunocompetent rats must be solved in future.
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PMID:[Chemotherapy responsiveness of brain tumors in subrenal capsule assay]. 232 45

The authors have evaluated the antiproliferative activity of verapamil, alone or in combination with 1,3-bis(2-chloroethyl)-1-nitrosourea (BCNU) in brain-tumor cells. These effects were studied in vitro using four human glioma cell lines and in vivo using glioblastoma multiforme cells transplanted to athymic nude mice. The results showed that verapamil when used alone produced inhibition of tumor growth; however, when verapamil was used in combination with BCNU (in vitro), significant dose-dependent suppression of proliferation occurred in all four cell lines. The in vivo results were far more dramatic. Mice treated with BCNU (25 mg/kg) plus verapamil (50 mg/kg) achieved a 200-fold decrease in tumor growth with a greater than 80% regression in tumor size. Complete cures were achieved in 80% of the mice observed for at least 50 days following the completion of therapy. These findings support the use of verapamil in overcoming drug resistance in malignant brain tumors.
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PMID:Use of verapamil to enhance the antiproliferative activity of BCNU in human glioma cells: an in vitro and in vivo study. 236 81

Effects of epidermal growth factor (EGF) and an antibody (Ab-528) reactive against the binding site for EGF on human EGF receptors were studied on multicellular tumor spheroids obtained from three human glioma cell lines with high (D-37 MG), medium (D-247 MG), and low (D-263 MG) levels of EGF receptor expression. The D-247 MG and D-263 MG spheroids grew slowly or not at all in the absence of EGF, while in the presence of EGF they were growth stimulated. Tumor cell migration, as measured by the spread of cells from spheroids on a plastic substratum, was increased by the addition of EGF for all three cell lines. Stimulation of migration could be blocked by a subsequent addition of Ab-528 to the medium at a concentration of 50 micrograms/ml. Invasiveness of glioma cell spheroids into fetal rat brain aggregates was related to EGF receptor expression; the two lines with medium to high receptor expression (D-247 MG and D-37 MG) were invasive, while the line with low EGF receptor expression (D-263 MG) was noninvasive, as assessed by an in vitro coculture assay. In the D-247 MG cell line, morphometry revealed EGF-enhanced invasiveness of the tumor cells. The addition of the Ab-528 to EGF-treated cocultures reduced invasion in both D-247 MG and D-37 MG cell lines. Antibody Ab-528 alone did not affect glioma cell growth or migration but did inhibit invasiveness. The present study suggests that, in brain tumors with an increased number of normal-sized Mr 170,000 EGF receptors, EGF or an EGF-like ligand such as transforming growth factor-alpha may selectively facilitate expansive tumor growth and tumor cell invasion. This effect may in part be blocked or retarded by specific antibodies to the EGF receptor.
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PMID:Effect of epidermal growth factor on glioma cell growth, migration, and invasion in vitro. 239 68

Thirty-seven patients with craniopharyngioma were treated at Children's Hospital, Boston, between 1972 and 1981, the mean follow-up period now being 10.5 years. Twenty of these patients are old enough to have finished high school and have been queried about their college or job activity. None of the four patients who had undergone radical excision of their tumor and who had reached the age of finishing high school was able to work independently. Among the 16 patients who reached this age and who were treated by more conservative operations and irradiation or irradiation alone, job performance or college attendance varied considerably, indicating that psychosocial impairment occurred in this group, but suggesting that the risk was less. The rate of tumor recurrence or of failure to respond to treatment was 57% (four of a total of seven survivors) following radical surgery and 7% (two of 27 survivors) after conservative operations and irradiation. The overall mortality rate was 8%; the causes of the three deaths were: "hypothalamic crisis" 1 year after radical resection; progressive tumor growth despite two attempts at resection and irradiation; and a brain-stem glioma in the field of irradiation 8 years after treatment.
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PMID:Craniopharyngiomas in children. Long-term effects of conservative surgical procedures combined with radiation therapy. 203 40

Lack of tumor specificity renders current modalities for treating malignant glioma ineffective. The administration of 131I-labeled monoclonal antibody (Mab) 81C6, which reacts with the glioma-associated extracellular matrix antigen, tenascin, to nude mice carrying s.c. human glioma xenografts has resulted in significant tumor growth delay and tumor regression. In this study, we evaluated the therapeutic efficacy of 131I-labeled 81C6 in athymic rats bearing intracranial human glioma xenografts, a more appropriate model for human gliomas. Mab 81C6, an IgG2b immunoglobulin, and an isotype-matched control Mab, 45.6, were labeled at 12.5-23.6 mCi/mg with chloramine-T. The Mabs were given i.v. at 1.25 and 2.5 mCi/animal for 131I-labeled 81C6, and 1.25 mCi for 131I-labeled 45.6 control. Therapeutic response was evaluated by survival prolongation using Wilcoxon rank sum analysis. Three experiments were done. No significant survival prolongation was found in the trial in which the average tumor size at the time of Mab administration was 60 +/- 14 mm3, two-thirds the size which causes animal death. In experiment 2, Mab was given at 16 +/- 14 mm3 average intracranial tumor volume. Statistically significant (P less than or equal to 0.005) survival prolongation was found for animals treated with 2.5 mCi 131I-labeled 81C6. In that experiment, male animals with intracranial xenografts had significantly shorter survival than females (P less than or equal to 0.005). When only female animals were used in the analysis, the 1.25-mCi 81C6 group also was found to have longer survival benefit (P less than or equal to 0.01). In the third experiment, only female animals were used and the tumor size at the initiation of treatment was 20 +/- 9 mm3. Highly significant survival prolongation again was found in both 1.25 (P = 0.001) and 2.5 mCi (P less than 0.001) 131I-labeled 81C6 groups. The estimated dose to intracranial tumors from 1.25 mCi of 131I-labeled Mab was 1585 rads for 81C6 and 168 rads for 45.6. Dose to other organs from 81C6 and 45.6 was similar, ranging between 31 rads to the brain and 734 rads to the bone marrow. However, normocellularity was observed in most marrow tissue examined microscopically. Three animals receiving the low dose (1.25 mCi 81C6) survived for more than 71 days with apparent cures. In conclusion, intracranial human glioma xenografts were treated successfully with 131I-labeled 81C6 but not control Mab.
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PMID:Treatment of intracranial human glioma xenografts with 131I-labeled anti-tenascin monoclonal antibody 81C6. 245 14


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