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)

Glutathione (GSH) assumes a pivotal role in numerous cellular functions including bioreductive reactions, maintenance of enzyme activity, amino acid transport, protection from harmful oxidative species, and detoxification of xenobiotics. The importance of GSH in modifying the cellular response to several anti-cancer treatment modalities has become better appreciated with the introduction of agents which can either decrease or elevate GSH levels in cells and tissues. In general, GSH depletion has been demonstrated to further enhance the cytotoxicity of several chemotherapy drugs and nitroimidazole hypoxic cell radiosensitizers. Conversely, GSH elevation affords varying degrees of protection. Whether or not GSH modulating agents will be useful as an adjuvant to selected cancer treatment modalities will depend on whether differential levels of GSH can be achieved in tumor versus normal tissues. Accurate GSH measurements in tumor and normal tissues will be required to adequately use and interpret the results of clinical studies where GSH modulating agents are employed. Precise tumor GSH measurements pose a considerable challenge due to the complicated cellular makeup of tumors.
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PMID:Glutathione modulation in cancer treatment: will it work? 265 5

Four of seven human melanoma cell lines were sensitive to killing by L-dopa (D37 1.0-4.7 microM) compared with fibroblasts, Hela, and three ovarian tumor cell lines (D37 12-59 microM). All seven melanoma lines, however, were sensitive to DL-buthionine(S,R)sulfoximine (BSO) (D37 0.73-8.5 microM) compared with the nonmelanoma cells (D37 25-68 microM). The melanoma line most sensitive to BSO (MM418) was highly melanized, proliferated slowly and was resistant to other agents [dopa, 5-(3-methyl-1-triazeno)5-imidazole-4-carboxamide, melphalan, methotrexate, hydroxyurea, etoposide, Adriamycin]. In most cell lines, L-dopa and BSO blocked cell proliferation in all phases of the cell cycle. Cellular sensitivity to dopa or BSO did not correlate with levels of total soluble SH, glutathione (GSH), GSH reductase, GSH peroxidase or GSH transferase, or with the extent of GSH depletion induced by the drug. No GSH transferase activity could be detected in the dopa-resistant HeLa line, indicating that detoxification of quinones is not an important mechanism of resistance. Within the group of melanoma cell lines, sensitivity to dopa correlated with decreased level of gamma-glutamyl transpeptidase (r = 0.81). However, the gamma-glutamyl transpeptidase inhibitor azaserine was less effective than BSO in enhancing the toxicity of dopa. It can be inferred that (a) there is no simple relationship between GSH metabolism and sensitivity to dopa or BSO in human melanoma cells, and (b) BSO may be an effective agent for melanoma.
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PMID:Sensitivity of human melanoma cells to L-dopa and DL-buthionine (S,R)-sulfoximine. 270 20

We have used monochlorobimane as a quantitative marker by which cells of naturally high or low GSH contents were purified by fluorescence-activated cell sorting (FACS). The cell line chosen for this purpose, MLS, was a human ovarian tumor cell line established from a patient who had received extensive chemotherapy and showed evidence of 'multidrug' resistance. Cells of a specified volume were sorted into subpopulations containing the 1% most dim (low GSH) and 1% most bright (high GSH) cells. With an increasing number of sortings, cell subpopulations emerged with progressively lower (dim) and higher (bright) GSH content as compared to the parent population. After 4 sortings, GSH contents were 10.6 +/- 0.8, 5.1 +/- 0.4, and 7.2 +/- 0.7 X 10(-18) moles/micron3 for MLS/bright, MLS/dim and MLS/parent respectively. The high and low GSH phenotypes were of limited stability reverting to the parent phenotype by the sixth week following the last FACS. Cells with high GSH content were more resistant to adriamycin than cells with low GSH content, for example, at 1 log cell kill MLS/bright was 1.6 fold more resistant than MLS/dim. An ADR resistant variant of the MLS line, designated MLS/ADRR/2, established by twice treating MLS cells with 1 microgram/ml ADR for 2 hr, also showed increased GSH content (1.3-fold) and ADR resistance as compared with the parent line. These results illustrate the possible importance of tumor cell GSH status in determining the response to chemotherapy of a heterogenous population of tumor cells with diverse GSH contents.
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PMID:Isolation by flow cytometry of a human ovarian tumor cell subpopulation exhibiting a high glutathione content phenotype and increased resistance to adriamycin. 271 85

The use of monochlorobimane (MCIB) as a fluorescence label for glutathione (GSH) quantitation was investigated in human tumor cell lines. When MCIB was used with a hamster fibroblast cell line under conditions where GSH was either depleted or elevated, an excellent correlation between bimane-GSH fluorescence and the standard cyclic GSH reductase assay (Tietze's) was accomplished. When the MCIB technique was applied to a human lung adenocarcinoma cell line, little or no GSH labeling was noted even at MCIB levels 10X higher than that used for the hamster line. HPLC analysis suggested that the source of the problem may be the affinity for MCIB to glutathione S-transferase. By using higher dye concentrations and longer staining times, adequate staining was possible. While the MCIB technique may have problems quantitating GSH levels between cell types, the possibility of examining GSH heterogeneity in solid tumor biopsies remains feasible.
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PMID:Use of monochlorobimane for glutathione measurements in hamster and human tumor cell lines. 271 86

Highly electron affinic compounds such as the nitroimidazole misonidazole (MISO) have been shown both in vitro and in vivo to be effective potentiators of certain conventional chemotherapeutic agents. Mechanistically, the observation that nitroheterocyclics reduce intra-cellular thiols by enhancing the oxidation of glutathione (GSH), has suggested that thiol depletion by MISO may be a key factor in this enhancement. The present investigations were undertaken to determine whether the use of buthionine sulfoximine (BSO) to affect GSH metabolism may lead to more effective potentiation of chemotherapeutic agents by sensitizers. KHT/iv cells were treated in exponential phase under hypoxic conditions with variable doses of the activated form of cyclophosphamide (4-hydroxy-cyclo-phosphamide, 4OH-CY) administered concomitantly with or without MISO (2.5 mM) for an exposure time of 4 hr. Inclusion of the sensitizer in the treatment protocol resulted in a dose modifying factor of approximately 2.4. Exposing cells to 1.0 mM BSO for 2 hr prior to treatment reduced intracellular GSH levels to 70-80% of control and increased the efficacy of 40H-CY approximately 1.2-fold. If BSO was administered prior to the 4OH-CY + MISO combination, severe tumor cell toxicity resulted. For example, when combined with 4OH-CY, similar cell kill could be achieved with 5 to 6-fold lower MISO doses in the presence of BSO as in the absence of BSO. Ultrastructural evaluations revealed that in the three agent combination, membrane damage, as reflected by the formation of surface blebs, may play a key role in the mechanism of the observed enhanced cytotoxicity.
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PMID:Effect of thiol manipulation on chemopotentiation by nitroimidazoles. 271 88

In previous studies, we have suggested that the selective inhibitory effect of sodium cyanate (NaOCN) on hepatoma metabolism may be due to the lower pH observed in tumors relative to normal tissues. Lower pH might enhance the action of NaOCN by increasing the formation of isocyanic acid and carbamoylation of sulfhydryl groups. In the present work, studies were conducted on the effect of pH on the carbamoylation of sulfhydryl groups. The data indicated that carbamoylation of the sulfhydryl group of glutathione by NaOCN was enhanced by decreasing the pH from 7.4 to 6.6. A less pH-dependent response was observed with organic isocyanates. However, all reactions were reversible after the pH was increased by the addition of base. Kinetic studies showed that the rate of the reaction is very rapid, a maximal effect occurring within the first 10 min. Dose-dependent modifications of cellular glutathione by NaOCN and organic isocyanates were observed in human HT29 colon tumor cells, rat HTC hepatoma cells, and rat hepatocytes. The rate of carbamoylation of the glutathione sulfhydryl group in cells was similar to that of pure glutathione (GSH). The effect of buthionine sulfoxamine on GSH levels in cells was at least as great as that of sodium cyanate, but only the latter showed inhibitory effects on macromolecular synthesis; these were very rapid, pH-dependent, and reversible in tumor cells. Our results suggest that cellular sulfhydryl group(s) other than that of GSH might be involved in the effect of NaOCN on macromolecular synthesis.
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PMID:Influence of pH on the modification of thiols by carbamoylating agents and effects on glutathione levels in normal and neoplastic cells. 273 17

The level of GSH in ovarian carcinoma cells which were sensitive and resistant to cisplatin was serially determined following tumor removal from the animals, in addition, activities of GSH-reductase and GSH-S-transferase were assessed. The GSH level in the resistant line (O-342/DDP) was almost twice as high as that in its sensitive counterpart (O-342), when determined immediately following removal of the tumor (1.55 +/- 0.47 vs. 0.81 +/- 0.32 nmol/10(6) cells). Culturing the cells resulted in a decrease of GSH levels in both cell lines during the first 4 h. Thereafter, GSH levels in both cell lines increased up to 24 h. At this time the GSH level was higher in O-342 than in O-342/DDP. GSH-reductase activity in O-342/DDP cells was significantly higher than in O-342 cells when the enzyme was determined immediately after tumor removal; at the same time there was no difference in activity of GSH-S-transferase between two cell lines. After 24 h in culture, no significant difference between O-342 and O-342/DDP cells could be observed in the activity of the two enzymes.
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PMID:Determination of intracellular reduced glutathione and glutathione related enzyme activities in cisplatin-sensitive and resistant experimental ovarian carcinoma cell lines. 276 60

Intracellular glutathione (GSH) has been shown to be one of the major factors modulating tumor response to a variety of commonly used anti-neoplastic agents. In this study the GSH contents of human ovarian tumors from primary biopsies, nude mouse xenografts, and in vitro cell cultures were compared. Pronounced intratumor cell-to-cell heterogeneity in GSH content was observed in primary patient biopsies when assessed using flow cytometry. For example, in an ascites biopsy from a newly diagnosed patient, a 5.6-fold difference in GSH concentration existed between the cell subpopulations with the 5% highest and 5% lowest GSH contents. Similar intratumor heterogeneity in GSH content was also evident in nude mouse xenografts. In addition, for a particular tumor line, the intertumor variations of GSH content among individual whole tumors were much less than the intratumor variation among slices from an individual tumor. Nude mouse xenografts of human ovarian cancer had GSH contents that were on average only slightly lower (30%) than those found in primary biopsies. In contrast, tumor cells grown as in vitro cultures, particularly those in exponential growth phase, had GSH contents considerably greater (1.3- to 3.5-fold) than those found in situ. Plateau phase cultures, however, had lower GSH contents and were more comparable to those observed in tumors in vivo. Overall, it may be concluded that in situations where GSH plays an important part in determining tumor response to a particular treatment, nude mouse xenografts may represent the most appropriate experimental model system.
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PMID:Heterogeneity of glutathione content in human ovarian cancer. 276 92

Macrophage cell cultures were treated with menadione, zymosan, or phorbol myristate acetate (PMA), and changes in productions of superoxide anion and hydroperoxide, and in glutathione oxidation and S-thiolation of cystatin-beta (formation of a mixed disulfide of cystatin-beta and glutathione) were examined. All three compounds promoted production of superoxide anion and hydroperoxide, but only menadione caused extensive oxidation of glutathione. Menadione caused S-thiolation of cystatin-beta in a dose-dependent fashion, but the other two compounds did not. Removal of menadione promptly reduced the oxidation of glutathione and S-thiolation of cystatin-beta induced by menadione. Inhibition of catalase by aminotriazol caused slight increase in the GSSG content in both menadione- and zymosan-treated cells, but not in S-thiolation of cystatin-beta in zymosan-treated cells. None of the three compounds influenced appreciably the activity of glutathione peroxidase, glutathione reductase, or superoxide dismutase in cultured cells. These results indicate that S-thiolation of cystatin-beta occurs in cells in response to oxidative challenge by menadione but not by zymosan or by the tumor promoter PMA. Dethiolation of cystatin-beta by purified thiol transferase and protein disulfide isomerase in the presence of different concentrations of GSH was examined in vitro. Both enzymes catalyzed dethiolation of cystatin-beta at a much lower level of GSH than that required for the non-enzymatic reaction, suggesting the importance of enzymatic catalysis of S-thiolation and dethiolation of cystatin-beta in cells.
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PMID:Formation of mixed disulfide of cystatin-beta in cultured macrophages treated with various oxidants. 282 74

Diethyldithiocarbamate (DDTC) injected i.p. inhibits remarkably and in a dose-dependent manner 12-O-tetradecanoylphorbol-13-acetate (TPA)-decreased glutathione (GSH) peroxidase and TPA-induced ornithine decarboxylase (ODC) activities in mouse epidermis in vivo. DDTC is more potent in inhibiting these effects of TPA than 16 other antioxidants, free radical scavengers, thiol-containing compounds, and reduced glutathione (GSH) level-raising agents, even though some of these treatments are applied directly to the TPA-treated skin. DDTC also inhibits the effects of several structurally different tumor promoters and the greater GSH peroxidase and ODC responses produced by repeated TPA treatments. The inhibitory effects of DDTC on TPA-decreased GSH peroxidase and TPA-induced ODC activities are additive with those of Na2SeO3 and D-alpha-tocopherol (vitamin E). Interestingly, DDTC is a more effective inhibitor when it is administered after TPA, suggesting that DDTC may supplement, facilitate, and/or enhance the activity of the natural GSH-dependent detoxifying system protecting the epidermis against the oxidative challenge presumably linked to the tumor-promoting activity of TPA. When tested in the initiation-promotion protocols, DDTC inhibits to the same degree complete tumor promotion by TPA and stage 2 tumor promotion by mezerein, in relation with its identical inhibition of the GSH peroxidase and ODC responses to both TPA and mezerein. Moreover, the inhibition of the first stage tumor-promoting activity of TPA by DDTC may be attributed to its ability to inhibit TPA-induced DNA synthesis, a postulated component of the conversion phase of skin carcinogenesis when TPA is used as a stage 1 tumor promoter.
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PMID:Inhibition of multistage tumor promotion in mouse skin by diethyldithiocarbamate. 282 29

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