UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cellular glutathione (GSH) levels were found to be 7-fold higher in a human lung adenocarcinoma cell line (A549) than in a normal human lung fibroblast line (CCL-210). Differential modulation of cellular GSH was explored in these cell lines by (a) stimulation of GSH synthesis by oxothiazolidine-4-carboxylate (OTZ) and (b) inhibition of GSH synthesis by buthionine sulfoximine (BSO). In the tumor cell line, OTZ treatment had no effect; however, GSH levels of 140-170% of control were achieved in the normal fibroblast line. With BSO, the normal cell line was depleted of GSH at a faster relative rate than with the tumor line. Within 7 h, 5% GSH remained in the CCL-210 line while approximately 40% GSH remained in the A549 line. Survival response of normal versus tumor cell lines to selected chemotherapy drugs was compared following modulation of GSH levels. OTZ pretreatment of the A549 line provided no protection to a 1-h exposure to melphalan, cisplatin, or bleomycin; however, OTZ pretreatment of CCL-210 elevated GSH and provided protection to melphalan, cisplatin, and bleomycin (protection ratios at 5% survival of 1.2, 1.4, and 1.4, respectively). Neocarzinostatin toxicity in the normal CCL-210 line pretreated with BSO was greatly reduced (protection ratio at 50% survival = 5.0). The same BSO treatment to A549 cells (40% GSH remaining) yielded a similar survival curve to control cells. These studies demonstrate that selective differential chemotherapy responses of normal versus tumor cells is possible by manipulating the GSH synthetic cycle. Should basic phenotypic differences with regard to reductive capacity exist in vivo, such manipulation in GSH levels might yield a therapeutic gain for carefully selected chemotherapy drugs.
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PMID:Selective modulation of glutathione levels in human normal versus tumor cells and subsequent differential response to chemotherapy drugs. 242 85

The in vivo effects of buthionine sulfoximine (BSO), an inhibitor of glutathione (GSH) biosynthesis, on the cytotoxicity of cyclophosphamide (CYM), cisplatin (CDDP) and bleomycin (BLM), were examined by monitoring the changes of non-protein thiols (NPSH) in normal tissues and in the NFSa fibrosarcoma. We used the lung colony assay as a measure of tumor response and the spleen colony assay as a measure of normal tissue response to CYM. In this study, 5 mmol/kg of BSO was subcutaneously injected four times every 12 hr before administration of the above anti-neoplastic drugs. GSH levels in subcutaneous NFSa tumors decreased to 2% of the control 12 hr after the last administration of BSO, but in the bone marrow, had recovered to 41%. In the colony assays, BSO increased the anti-cancer effects of the three chemotherapeutic agents, but did not modify the bone marrow suppression by CYM. This finding was a result of the differential response of GSH depletion in the tumor and in the bone marrow. Our study demonstrates that BSO is an effective chemosensitizer of these drugs and may be of therapeutic value when used at an optimal interval.
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PMID:Chemosensitization by buthionine sulfoximine in vivo. 242 90

By sequential use of GSH-affinity chromatography and chromatofocusing, the isoenzymes of glutathione transferase from tumor and non-tumor kidney tissues have been purified and their properties compared. On the basis of electrophoretic mobilities on SDS/polyacrylamide gel, substrate specificities toward the diagnostic substrates cumene hydroperoxide and ethacrynic acid and immunoreactivity with antisera raised against alpha, mu and pi class glutathione transferases, it was found that most of the isoenzymes purified from both tumor and non-tumor kidney can be identified as members of either alpha or pi classes. All the samples investigated lacked mu class glutathione transferase. In addition, we could identify in tumor samples two transferases GST-7.6 and GST-5.8/5.9 which on the basis of immunological properties cannot be related to any of the members of the three major classes of glutathione transferases. The latter do not appear to have corresponding forms in non-tumor tissues. It was suggested that specific transferases can be selectively expressed by tumor kidney carcinoma.
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PMID:Electrophoretic and immunological analysis of glutathione transferase isoenzymes of human kidney carcinoma. 249 96

Five nitroimidazole hypoxic cell radiosensitizers were evaluated in a human lung adenocarcinoma cell line (A549) whose GSH level was 8-fold higher than Chinese hamster V79 cells. One millimolar concentrations of Misonidazole (MISO), SR-2508, RSU-1164, RSU-1172, and Ro-03-8799 sensitized hypoxic A549 cells to radiation, with Ro-03-8799 giving the highest sensitizer enhancement ration (SER) (2.3). However, MISO, SR-2508 and Ro-03-8799 were less effective in this cell line than in V79 cells, presumably due to higher GSH content of the A549 cells. Increased hypoxic radiosensitization was seen with 0.1 mM Ro-03-8799 after GSH depletion by BSO as compared to 0.1 mM Ro-03-8799 alone (SER-1.8 vs 1.3). The combination of GSH depletion and 0.1 mM Ro-03-8799 was considerably more toxic than 0.1 mM or 1.0 mM Ro-03-8799 alone. This sensitivity was much greater than has been observed for SR-2508. These data show that Ro-03-8799 was the most efficient hypoxic cell radiosensitizer in a human tumor cell line considerably higher in GSH than the rodent cell lines often used in hypoxic radiosensitization studies. Thus, Ro-03-8799 may be a more effective hypoxic cell sensitizer in human tumors that are high in GSH.
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PMID:Evaluation of nitroimidazole hypoxic cell radiosensitizers in a human tumor cell line high in intracellular glutathione. 252 17

The effect of glutathione depletion (GSH) on the efficacy of SR 2508 was evaluated in two murine tumor models with single large doses of radiation or with low doses administered in an accelerated fractionated schedule. To deplete tumor GSH, buthionine sulfoximine (BSO) was administered in the animals drinking water (10 mM) following two i.p. injections of 450 mg/kg. This treatment decreased RIF and MCA tumor GSH concentrations by 95% and 80%, respectively. Mice (C3H/Sed) received BSO for 48-72 hr before the first dose of radiation, and were maintained on BSO drinking water for the duration of the fractionated course of therapy. SR 2508 (200-1000 mg/kg) was injected 45 min prior to each fraction of radiation. Radiation was administered as a single dose of 15 Gy or 20 Gy, for RIF and MCA tumors, respectively. Alternatively, animals received a fractionated course of radiotherapy which consisted of 2.5 Gy/fraction for the RIF, and 3 Gy/fraction for the MCA tumors, b.i.d. for five days (total of 10 fractions). Tumor response with and without BSO, and with and without SR 2508, was determined by regrowth delay. BSO pretreatment increased the efficacy of SR 2508 with single dose radiation in the MCA but not RIF tumor. SR 2508 administered with fractionated radiation produced lower enhancement ratios (SER) than with a single radiation dose. However, BSO significantly enhanced the efficacy of SR 2508 with fractionated radiation. BSO increased the maximum SER for SR 2508 (3 mM/fraction) from 1.2 to 1.4 in the RIF tumor, and from 1.4 to 1.8 in the MCA tumor. BSO also increased the toxicity of SR 2508 by a factor of 2. However, the ability of BSO to increase the efficacy of low doses of sensitizer at clinically relevant doses of radiation suggests that this combined modifier treatment may be of clinical benefit.
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PMID:The effect of glutathione (GSH) depletion in vivo by buthionine sulfoximine (BSO) on the radiosensitization of SR 2508. 252 85

Resistance to antineoplastic drugs is a major problem in the clinical management of cancer. Previous studies have demonstrated that the cytotoxicity of certain anticancer drugs is increased by lowering the glutathione (GSH) levels with buthionine sulfoximine (BSO), a specific inhibitor of gamma-glutamylcysteine synthetase. In this study we report that the resistance to doxorubicin, an anthracycline antibiotic and the most active agent in the treatment of breast cancer, can be partially reversed by exposing MCF-7 doxorubicin-resistant breast tumor cells (MCF-7/ADRR) to minimally cytotoxic doses of BSO. We found that the BSO treatment (50 microM, 48 h) of MCF-7/ADRR cells resulted in 80 to 90% depletion in total GSH concentrations. The toxicity of doxorubicin, as determined by growth inhibition and clonogenic assays, was significantly potentiated in the BSO-treated GSH-depleted cells relative to control breast tumor cells, and a dose-modifying factor of 5 to 7 was observed. Since the cytotoxicity of doxorubicin has been associated with its ability to undergo enzymatic activation and to form hydroxyl (OH) radicals in this cell line, we also quantitated the OH formation in the BSO-treated and untreated MCF-7/ADRR cells using electron spin resonance spintrapping techniques. These results show that doxorubicin stimulated at least 2-fold more OH formation in the tumor cells after GSH levels were decreased by 90%. These results indicate that GSH plays an important role in modulating doxorubicin-induced OH formation via the scavenging of hydrogen peroxide by glutathione peroxidase and thus partially protects MCF-7/ADRR cells from the cytotoxic effect of doxorubicin.
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PMID:Potentiation of doxorubicin cytotoxicity by buthionine sulfoximine in multidrug-resistant human breast tumor cells. 253 60

Chronic lymphocytic leukemia is a neoplastic disease in which drug resistance invariably occurs. We have studied the uptake and interaction with molecular targets of two drugs, chlorambucil and adriamycin, in CLL lymphocytes and CHO cell lines. Resistance does not appear related to uptake for either drug. Exposure to CLB causes DNA cross-links in the sensitive but not in the resistant cell line. The GSH content of B-CLL lymphocytes is depleted after a 20-hr incubation. An inability to maintain its GSH content may contribute to this cell's vulnerability to CLB. The resistance of CLL lymphocytes to ADR may be related to the undetectable levels of its target enzyme DNA topoisomerase II. Future approaches may involve study of novel anthracyclines, DNA topoisomerase I inhibitors and the development of in vitro predictive tests.
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PMID:Studies on drug resistance in chronic lymphocytic leukemia. 256 Dec 48

A spontaneously originated murine mammary adenocarcinoma (16C), selected for its sensitivity to agents active against breast cancer in women, and one of the very few experimental solid tumor models responsive to Adriamycin (ADR) was used to study the mechanism of induced ADR resistance in vivo. A resistant variant of the tumor was obtained from the explant of a regrown tumor following a dose of ADR (12 mg/kg) that caused complete tumor repression but not cure. Progressive refractoriness to ADR was observed following up to six repeated cycles of treatment, regression and regrowth. However, beyond the sixth treatment, no further degree of resistance could be obtained. The cell line so established, designated 16C/ADRR, has a glutathione (GSH) content 1.67 times greater than the parent 16C line. Depletion of GSH by buthionine sulfoximine (BSO) enhanced the cytoxicity of ADR in both cell lines. The sensitization effect appeared to be dependent on the degree of GSH depletion, requiring a threshold level of depletion to approximately 30% of control. The resistance of 16C/ADRR, however, appeared not to be directly related to the increased absolute GSH level per se since reduction of the GSH content of the 16C/ADRR line to levels similar to that of the parent 16C line did not restore the original sensitivity to ADR. However, the activities of two important elements in the GSH detoxification system, GSH peroxidase and S-transferase, were found to be elevated in resistant cells by factors of 2.4 and 4.7-5.6 respectively. In vivo studies with a diverse spectrum of antineoplastic drugs revealed a pattern of cross-resistance consistent with the idea that elevated GSH S-transferase and peroxidase activities may be responsible for the decreased (2.8- to 5.3-fold) sensitivity to ADR. 16C/ADRR exhibited cross-resistance with melphalan (MEL), but none with vincristine (VCR), vinblastine (VBL) or etoposide (VP-16). These results clearly demonstrate non-adherence by the 16C/ADRR tumors to the well characterized multidrug resistance (mdr) phenotype. Further affirmation of this conclusion was obtained by immunochemical and pharmacological studies. When a monoclonal antibody prepared against the mdr associated, 170 kD P-glycoprotein (170 P-gp), was used, the presence of the 170 kD P-gp in both the sensitive and resistant 16C lines could not be detected, although the presence of a lower molecular weight form of P-gp could not be ruled out entirely. High performance liquid chromatographic measurement of ADR accumulation and elimination also failed to reveal any significant differences between the sensitive and resistant variants.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:A study of the mechanism of resistance to Adriamycin in vivo. Glutathione metabolism, P-glycoprotein expression, and drug transport. 257 74

The effect of systemic glutathione (GSH) depletion on sensitization of bladder cancer cells to various antineoplastic agents was investigated using murine model, MBT-2. Subcutaneous injection(s) of buthionine sulfoximine (BSO) significantly depleted the GSH content in the tumor and organs. BSO pretreatment produced significant enhancement in the antitumor effect of cyclophosphamide (CY), though it failed to sensitize the tumors to doxorubicin hydrochloride (Adriamycin), cisplatin, mitomycin C, JM-8, methotrexate, vinblastine, and tumor necrosis factor. Mice tolerated cytotoxic agents alone and in combination with BSO except for cisplatin in combination with BSO. A 29 percent (4/14) mortality rate was observed in mice treated with BSO and divided schedule of cisplatin.
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PMID:Effect of systemic glutathione depletion by buthionine sulfoximine on sensitivity of murine bladder cancer to cytotoxic agents. 259 83

Helanalin, a sesquiterpene lactone antineoplastic agent, is toxic at therapeutic doses in murine tumors. The toxicity has been assumed to be correlated with the binding of the drug to cellular thiol groups. Studies were undertaken to increase the intracellular level of GSH in the liver, kidney and other tissues to eliminate the toxicity of helenalin in vivo. Combination of helenalin 8 mg/kg/day i.p.) with L-cysteine (100 mg/kg/day), beta-mercaptoethanolamine (20 mg/kg/day), 18-beta-glycyrrhetinic acid (15 mg/kg/day), or 4,4'-diaminodiphenylsulfone (10 mg/kg/day) afforded improvement in survival of mice bearing P-388 lymphocytic leukemia. However, other thiol-elevating agents, anti-oxidants, intracellular buffering agents, and cardiac treatment drugs were not effective. Hydrocortisone, Cortef, treatment with helenalin afforded improvement in life expectancy. Reduced glutathione (GSH) and non-protein sulfhydryl (NPS) levels were not reduced in the liver, kidney, or circulating red blood cells (rbc) by helenalin treatment. After three days treatment of mice with helenalin, GSH levels were reduced and NPS levels elevated in P-388 tumor cells. Administration of L-cysteine, beta-mercaptoethanolamine, 4,4'-diaminodiphenylsulfone, or 18-beta-glycyrrhetinic acid alone caused no alteration in liver GSH but elevated NPS levels; P388 cell GSH and NPS levels were lowered. Combination of any of these agents, after three days, with helenalin afforded increases in P-388 cell GSH and NPS levels. This data would suggest that helenalin toxicity is not related to the lowering of GSH or NPS levels in critical tissues of mice.
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PMID:Role of thiol agents in protecting against the toxicity of helenalin in tumor-bearing mice. 261 70

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