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

Cytotoxic and cytokinetic effects of Cisplatin (cisdiamminedichloroplatinum) on cultured human and rat glioma cells (KY and C6) were studied both in vitro and in vivo. The cytotoxic or cytostatic effect was evaluated by either colony formation assay or inhibition rate of cell growth. The cytokinetic effects were analyzed by DNA histogram using a flow cytometer. It was found that the cytotoxic effect of Cisplatin on the cultured glioma cells was dose-dependent, and that human KY cells and rat C6 cells had similar sensitivity to Cisplatin. Within 24 hours after treatment of KY cells with Cisplatin, a time-dependent effect was observed, but the cytotoxic effect of Cisplatin in the medium decreased rapidly. Investigation of chronological changes in the DNA histogram of KY cells treated with 0.2 microgram/ml Cisplatin revealed that cell-cycle progression was delayed in the S-phase and blocked at the S-G2 + M boundary 18 hours later. KY tumors subcutaneously transplanted into nude mice were treated with intraperitoneal injection of 3 mg/kg/day Cisplatin for 10 days and the tumors markedly regressed by 65% of their wet weight.
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PMID:[Effects of cisplatin on cultured glioma cells]. 370 52

The effects of the anticancer drugs Nimustine (ACNU), Aclacinomycin A (ACR), Adriamycin (ADM), Bleomycin (BLM), Cisplatin (CDDP), and 5-Fluorouracil (5-FU) on the multicellular spheroid of a chemically-induced 9L rat glioma was studied. The multicellular spheroid in which cells grow in vitro as three-dimensional aggregates represents a biological model, which is intermediate between monolayer cells in vitro and solid tumors. Spheroids were initiated in bacteriological grade petri dishes seeded with 10(6) 9L rat glioma cells, cultured for four days and thereafter transferred and further developed in a spinner flask. Spheroids of 200-400 micron diameter were sorted and exposed for 24 hours to 5-FU and one hour for other drugs. After treatment both cytotoxic effect and growth delay were analyzed. Following disaggregation using collagenase, pronase and DNAase, cytotoxic effect on multicellular spheroids was measured by colony forming assay and were compared with those effects on 9L monolayer culture cells in the exponential growth. For growth delay assay, multicellular spheroids were individually transferred to 16 mm well containing 0.4 ml agarose base and 2 ml culture medium. Spheroid size was measured twice a week and growth curves were drawn. The growth delay was determined as the treated group vs. control differences in time required to a size four times that of the initial volume. For cells both in the monolayer culture and the multicellular spheroid, the dose response curve for ADM, BLM and 5-FU was "biphasic" and that for ACNU, ACR and CDDP "shoulder-threshold" type.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Effects of anticancer drugs on multicellular spheroid of 9L rat brain tumor]. 386 69

Antitumor activity of Cisplatin (cis-diamminedichloroplatinum) against malignant brain tumors was investigated from both experimental and clinical points of view. With glioma and neuroblastoma cell lines we studied inhibition of cell growth was studied and DNA histogram analyzed with flow cytometry to determine its antitumor activity in vitro. At the concentration of 1.25 micrograms/ml, DNA accumulation is S or G1-S phase and mild inhibition of cell growth were demonstrated; at the concentration of 12.5 micrograms/ml, cessation of cell cycle was observed. In the clinical study, four glioma patients were treated by intravenous administration of Cisplatin 10 mg/sqm for 5 days q 4 weekly. There were one complete response, one minor and two stable responses. Three patient with intracranial embryonal carcinoma were treated by cisplatin. One patient showed partial response and the others were stable.
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PMID:[Antitumor activity of cisplatin against malignant brain tumors]. 608 69

The kinetics of formation and repair of total genomic DNA interstrand crosslinks (ISCs) induced by BCNU and cis-DDP were studied in cells of 6 human malignant gliomas and related with their degree of drug resistance. DNA ISCs were formed rapidly (peak 6-12 h) following a 2 h exposure to 50 microM BCNU or 25 uM cis-DDP, and on an equimolar basis higher levels of crosslinking were observed with cis-DDP than with BCNU. Repair of cis-DDP induced crosslinks was characteristically bi-phasic and the rate was significantly higher than that for BCNU induced crosslinks. Overall, a low crosslink index and a high crosslink repair rate correlated with cis-DDP and BCNU resistance. The data demonstrate, conclusively, the ability of human glioma cells to repair cis-DDP and, for the first time, BCNU induced DNA ISCs and that DNA crosslink repair is a significant contributing factor to the resistance of these tumors to the two agents.
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PMID:Formation and repair of 1,3-bis-(2-chloroethyl)-1-nitrosourea and cisplatin induced total genomic DNA interstrand crosslinks in human glioma cells. 776 97

Human glioblastoma (U-87MG) and canine glioma (canine brain tumor [CBT]) cell lines were tested in vitro for their therapeutic sensitivity to sequential treatment with differentiating agents and chemotherapy or hyperthermia. Both cell lines responded to the inducer combination dibutyryl adenosine-3',5'-cyclic monophosphate/sodium butyrate by the formation of cytoplasmic processes detectable within 7 hours and attained approximately 90% morphological differentiation within 2 days of exposure. The clonogenicity of CBT and U-87MG cells gradually decreased after 1 to 7 days of exposure to the inducer combination, but this treatment alone failed to kill the cells. After the removal of the inducers, both lines dedifferentiated and the rate of clonogenesis increased. 1,3-bis-(2-Chloroethyl)-1-nitrosourea administered to CBT and U-87MG cells before or after 3 days of treatment with inducers potentiated the antiproliferative effects of the differentiating agents. Cisplatin administered to U-87MG cells enhanced the antiproliferative effect of the differentiating agents to a greater extent when added before the inducers rather than after differentiation was stimulated. The sequential treatment of CBT cells with a 44 degrees C heat pulse for 30 minutes followed by differentiating agents produced an additive potentiation of cell killing, whereas the reverse sequence did not. Hyperthermia pretreatment at 44 degrees C for 15 minutes or at 42 degrees C for 30 minutes failed to enhance the antiproliferative effects of inducing agents.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Differentiation therapy is potentiated by chemotherapy and hyperthermia in human and canine brain tumor cells in vitro. 800 63

Radiation resistant tumours such as gliomas show enhanced capacity for potentially lethal damage recovery (PLDR), which can be inhibited by cisplatin. The 9L rat brain tumour cell line, like human glioma cell lines, shows a large capacity for PLDR. Cisplatin administered at 6 micrograms/ml for 1 hour immediately following acute irradiation (18 Gy) is shown to cause significant inhibition of PLDR, while 3 micrograms/ml causes little inhibition. Cisplatin-radiation treatment sequence affects PLDR inhibition, with maximum effect seen when cisplatin is administered immediately after irradiation, during the period of rapid cellular recovery. These data suggest that optimum interaction between radiation and cisplatin treatments can be achieved by maximizing intratumoural cisplatin levels during the post-irradiation recovery period.
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PMID:Inhibition of potentially lethal damage recovery by cisplatin in a brain tumor cell line. 829 26

The cell surface sugar determinants (CSSD) were examined in C6 glioma cells in cultures at different conditions of growth by peroxidase conjugates of the lectins: peanut agglutinin (PNA), Ricinus communis agglutinin (RCA), Helix pomatia agglutinin (HPA), wheat germ agglutinin (WGA), lentil agglutinin (LCA), laburnum bork agglutinin (LABA), and lotus agglutinin (TPA). It was found that the cells bound more intensively WGA, LCA, and RCA compared to PNA, HPA; the weakest staining was provided by LABA and TPA. Binding intensity for PNA significantly increased after pretreatment of the cells with neuraminidase. This indicates that a part of the beta-D-galactose residues on the surface membrane of C6 glioma cells is covered by sialic acid. The process of sialization was increased during the culturing of C6 glioma cells. Addition of cis-DDP or dBcAMP to cultures growing in medium with 10% of CS increased the number of Gal residues which are not covered by sialic acid. The expression of beta-D-galactose (Gal), N-acetyl-D-galactosamine (NAcDGal), and fucose (Fuc) residues appeared to be most responsive to changes in growth conditions and degree of cell differentiation. The expressions of N-acetyl-D-glucosamine (NAcDGlc) and mannose (Man) residues were high and seems did not depend on changing of the conditions of culturing. In C6 glioma cells cultures in which the rate of cell division, formation of the cell processes, and adhesiveness of the cells to the substratum were reduced by growing cells in MEM+, expression of beta-Gal, NAcDGal, and Fuc was considerably reduced. The decrease of expression of beta-Gal, NAcDGal, and Fuc on the surface of cell membrane was more pronounced in MEM+ with 1% of CS than in MEM+ with 10% of CS. In DbcAMP and cis-DDP treated cultures, grown in medium with 1% serum, in which cell division was inhibited without obvious changes in cell adhesiveness to the substratum, binding of PNA and HPA was increased due to higher expression of beta-Gal and NAcDGal. From these observations it was concluded that the pattern of expression of sugar residues on the cell surface varies according to the biological state of the cells and are easily affected by tissue culture conditions.
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PMID:Growth related changes in sugar determinants on the surface of C6 glioma cells in culture: a cytochemical lectin-binding study. 856 19

Cisplatin is an anticancer agent frequently used as an alternative to the nitrosoureas in brain tumor chemotherapy. We describe the use of a technique of quantitative reverse transcription-polymerase chain reaction (RT-PCR) to examine the damage induced in the glutathione S-transferase (GST)-pi gene by cisplatin and the subsequent repair of this damage in cells of the MGR3 human glioblastoma multiforme cell line. The relationship between cisplatin dose and the extent of damage in the GST-pi gene was determined over cisplatin concentrations (0-10 microM) within the clinically achievable range. Total RNA was purified from control and cisplatin-treated cells, and both the full-length GST-pi cDNA and control 200-bp beta-actin cDNA were amplified by RT-PCR. The cDNA reaction products were electrophoresed, Southern hybridized, and quantitated densitometrically. A decrease in GST-pi mRNA representing damage to the GST-pi gene was observed with increasing cisplatin concentrations, up to a maximum of 75% at 10 microM cisplatin. Repair of the GST-pi gene in cells treated with cisplatin, assessed as recovery of transcriptional activity of the gene, was shown to occur even after 48 hr following drug removal. A potent RNA polymerase II inhibitor, alpha-amanitin, was used to show that the GST-pi mRNA quantitated in this RT-PCR assay resulted from de novo RNA transcription of the GST-pi gene with little contribution from preexisting GST-pi transcripts. The results demonstrate that the GST pi gene, which is actively transcribed and often overexpressed in human glioma cells, is a target for cisplatin, but that the damage to the gene is efficiently repaired in these cells. The RT-PCR assay has the potential for use in the detection of DNA damage induced by genotoxic agents in other actively transcribed genes and for assessing the repair of gene-specific DNA lesions in cells.
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PMID:Detection of DNA damage in transcriptionally active genes by RT-PCR and assessment of repair of cisplatin-induced damage in the glutathione S-transferase-pi gene in human glioblastoma cells. 907 88

Previous work in our laboratory has shown a correspondence between the chemosensitivity of C6 rat glioma and that of human glioblastoma (GBM) to a panel of chemotherapeutic agents in vitro, as determined by the MTT [3-(4,5-dimethyl-2-thiazolyl)-2,5-diphenyl-2H tetrazolium bromide] colorimetric assay. In the present study, an in vivo model of intracerebral C6 glioma in Sprague-Dawley rats was used to determine if a correlation exists between in vitro chemosensitivity and in vivo survival of the animals, and post-mortem histopathological changes in the tumor. Cisplatin (CDDP) and methotrexate (MTX), agents previously shown to demonstrate high and low in vitro cytotoxicity, respectively, against C6, were administered by intra-carotid infusion over the course of two days. In a separate series of animals, LTC4 was administered prior to infusion of CDDP or MTX; LTC4 was used in view of its known, selective, vasogenic effect on the permeability of brain tumor capillaries. It was found that survival of animals treated with CDDP alone was increased, although this did not reach statistical significance; histopathologically, CDDP-treated animals showed significant tumor necrosis. However, in CDDP-treated animals, pre-treatment with LTC4 increased survival to a statistically significant degree. When administered alone, LTC4 (not followed by CDDP) had no effect on either survival or histology. The survival-enhancing effect of CDDP, when combined with LTC4, was probably not due to any cytotoxic effect of LTC4; this is based on our finding that, on the in vitro MTT colorimetric assay, LTC4 showed low cytotoxicity for C6 glioma cells. By contrast with CDDP, MTX -- with or without pretreatment with LTC4 -- affected neither survival nor tumor histology. With respect to the question of correspondence between the MTT colorimetric in vitro assay and in vivo effect, MTX showed a clear correlation: low cytotoxicity in vitro and poor in vivo response. In the case of CDDP, the correspondence was not clear-cut: there was a high level of in vitro chemosensitivity of the C6 cell line to CDDP as well as post-mortem tumor necrosis, but in vivo testing showed no significant prolongation of survival. However, pre-treatment with LTC4 did significantly extend survival in animals treated with CDDP.
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PMID:Chemotherapy in experimental brain tumor, part 2: pretreatment with leukotriene C4 prolongs survival. 952 21

In vitro cytotoxicity testing is used increasingly during the development of clinical treatment protocols. These tests are influenced by many variables, not all of which have been assessed systematically yet. We analyzed the influence of the recovery time between the end of treatments and measurements on the detection of cellular resistance. The development of resistance to cisplatin and radiation was chosen as a model since the schedule of these treatments is the objective of several ongoing clinical trials. C6 rat glioma, T98G, 86HG-39, A172 human glioma and TE671 human rhabdomyo-sarcoma cells were pretreated with radiation or cisplatin. The cellular resistance was then compared in pretreated and wild-type cells using the 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) test. In all cell lines, apparent drug concentrations killing 50% of the cells were dependent on the recovery time. In A172 cells this concentration was 10.3+/-02.1 microM after 48 h but decreased to 3.56+/-0.44 microM after 120 h recovery time (P < 0.001). After recovery times of more than 168 h, 53% of all pretreated cell lines were resistant to cisplatin or radiation, 25% were unchanged and 22% were more sensitive. However, only half the resistant cells could be identified when the MTT test was done with only 48 h recovery time. The sensitivity of detection increased from 0.46 to 0.83 when the recovery time of the test system was extended from 48 h to 168 h. The specificity was not dependent on the recovery time. Experiments showing resistance after short recovery times are reliable, but lack of resistance can only be shown in experiments with long recovery times. Cisplatin treatment can result in resistance to radiation in glioma cells.
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PMID:Long recovery times improve the detection of cellular resistance in vitro. 975 16


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