Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027651 (tumor)
 685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Interleukin 1 alpha (IL-1) is a polypeptide/glycoprotein growth factor with multiple functions including the modulation of hematopoietic cell proliferation and differentiation. In vivo studies were performed with C57BL/6J mice injected with 0, 0.2, or 2.0 micrograms of IL-1 24 hr before or after lethal total body irradiation (TBI) (9.5 Gy). More mice in the groups administered IL-1 before TBI survived (90% of the 2.0 micrograms group) than those treated 2 or 24 hr after TBI, which was still slightly superior to the uninjected group, which all died within 15 days (p = .0001). Proliferation of bone marrow granulocyte/macrophage colonies following split dose TBI was also greatest for mouse groups treated with IL-1 prior to TBI. These experiments support data from other investigators that IL-1 stimulation of BM is related to IL-1 timing with respect to TBI. Stimulation of hemopoiesis was also assessed in terms of changes in peripheral blood and BM cell numbers and cell cycle kinetics using an electronic particle counter and flow cytometric techniques. Mice injected with 2 micrograms of IL-1 showed an initial decline (at 3-6 hr) and then a selective proliferation (24-48 hr) of early and more committed progenitor cells to 125% and 200% of control values, respectively. Peripheral blood counts rose accordingly. Cells in S and G2/M phases increased over 10 hr and then declined in number. It thus appeared that some synchronization of cell cycling occurred, which might place cells in a more radioresistant phase of the cell cycle. The glutathione (GSH) content and synthesis in BM cells were measured by isocratic paired-ion high performance liquid chromatography and 35S-labelled cysteine incorporation into the GSH tripeptide. An increase in cellular GSH content and synthesis was demonstrated following IL-1 which lasted 24 hr, suggesting a possible mechanism for the radioprotection by IL-1. To determine the potential for achieving a favorable therapeutic ratio, KHT tumor-bearing mice were injected with 2.0 micrograms IL-1. No change in tumor diameters or weights or tumor cell clonogenicity between IL-1 treated or untreated animals was observed. These experiments strongly support a role for IL-1 in stimulating bone marrow to overcome the myelosuppressive effects of irradiation.
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PMID:Interleukin 1 alpha stimulates hemopoiesis but not tumor cell proliferation and protects mice from lethal total body irradiation. 199 30

Monochlorobimane (MCB) has been used as a glutathione (GSH) specific fluorescent probe capable of delineating GSH heterogeneity in cellular systems. Generally, low concentrations of MCB (less than 50 microM) have been used to quantitatively label GSH in rodent cell lines. Incubation of the hamster cell lines, CHO AB1 and V79, with 10 microM MCB labeled 75 and 39% of the reduced GSH pool, respectively. In contrast, incubation of 7 different human cell lines with 10 microM MCB labeled less than 4% of the total reduced GSH pool. The human cell lines required 1000 microM MCB to label an average of 73% of the GSH pool (range, 60-88%). When using 1000 microM MCB to label GSH, flow cytometry results from 7 different cell lines (human and rodent) were in good agreement with high performance liquid chromatography and standard spectrophotometric analysis with regards to a rank ordering of the GSH content determined for each cell line. The human glutathione S-transferases B2B2, B1B2, psi, pi, and the rat transferases 1-2, 3-3, and 3-4 were isolated and purified for steady state kinetic analysis with MCB and GSH as the primary substrates. The human basic transferases, B1B2 and B2B2, had Km values for MCB of 354 and 283 microM and Vmax values of 33.3 and 34.6 mumol bimane-GSH/min/mg protein, respectively. The rat basic transferase 1-2 showed similar kinetic results with a Km of 199 microM and a Vmax of 35.5 mumol bimane-GSH/min/mg protein. The human neutral transferase (psi) had a Km for MCB of 204 microM with a Vmax of 6.5 mumol bimane-GSH/min/mg protein. In contrast, MCB has a high affinity for the rat neutral transferase with a Km of 2.6 microM and a Vmax of 35.1 mumol bimane-GSH/min/mg protein. The human acidic transferase (pi), the predominate transferase found in most human tumor cell lines, has a Km of 264 microM for MCB and a Vmax of 1.99 mumol bimane-GSH/min/mg protein. The kcat/Km values indicated that MCB is an excellent substrate for the rat neutral transferases while the human pi glutathione S-transferase showed the least reactivity. Collectively the data indicate that MCB fails to label GSH at lower concentrations (less than 50 microM) in human cell lines because of the reduced affinity of MCB for the human transferases and possibly also due to differences in glutathione S-transferase isozyme expression between rodent and human cell lines.
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PMID:Differential specificity of monochlorobimane for isozymes of human and rodent glutathione S-transferases. 199 51

Intracellular glutathione (GSH) levels for seven mammalian cell lines (four human tumors, two rodent, one monkey) were determined by flow cytometry following staining with monochlorobimane (MBCl), and the results were compared with GSH levels measured by the Tietze assay. The mean fluorescence intensity for all but the two rodent lines did not correlate with GSH levels determined biochemically. Good agreement between the two assays was observed for the rodent lines following depletion of GSH by buthionine sulfoximine, but the level of GSH depletion achieved in the human and monkey lines was always underestimated by MBCl/flow cytometry. These discrepancies were not resolved by increasing stain concentration or staining time. Total glutathione S-transferase (GST) activity and GST isozyme profiles were determined for each of the cell lines. Western analysis with antibodies raised against rat Ya, Yb1, and Yc and human pi isozymes revealed that the rodent cell lines expressed abundant alpha (Ya, Yc subunits) and mu (Yb1 subunits) class isozymes. In contrast, GST-pi was the predominant isozyme detected in the human tumor cell lines and Cos-7 monkey cells. Michaelis-Menten analysis with purified GSTs from rat liver as well as purified human placental (pi) GST revealed that the conjugation of MBCl and GSH catalyzed by the alpha (1-1 and 2-2) and mu (3-3 and 3-4) class GST isozymes was approximately 10 and 80 times more efficient than was conjugation by the GST pi form, respectively. These data indicate that the GST-catalyzed conjugation of GSH and MBCl is isozyme dependent and that MBCl is a relatively poor substrate for the pi isozyme. As a consequence of this isozyme rate differential, the MBCl/flow cytometry technique for GSH quantitation must be applied cautiously, particularly with human tumor cells, many of which have been shown to have high GST-pi activity. Application to other cell types should also be made after careful characterization of GSH levels and GST isozyme composition and only after comparison with other independent assays of GSH concentration.
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PMID:Influence of glutathione S-transferases on cellular glutathione determination by flow cytometry using monochlorobimane. 200 62

The pyrimidine precursor orotic acid (OA) is a constituent of dairy products and therapeutic drugs. Several recent publications point towards a tumor promoting activity of OA in rat liver. An increased production of reactive oxygen has been discussed as a possible mechanism, leading to lipid peroxidation and DNA single strand breaks. In view of contradictory results, this postulated prooxidative action of OA was reexamined with new experimental techniques. Weanling Sprague-Dawley rats were fed 1% OA in different diets for 4-35 days. The NADPH-mediated lipid peroxidation in liver homogenate and microsomes was determined in vitro by analysis of low-level chemiluminescence (CL) and the strongly correlated formation of malondialdehyde (MDA). In no case did treatment with OA result in an increase of lipid peroxidation in vitro nor did such treatment enhance the generation of reactive oxygen as measured by lucigenin CL. In accordance, the total cytochrome P-450 content as well as the activity of individual P-450 isoenzymes were unchanged. Treatment with OA did not elevate the MDA content of fresh liver homogenate when butylated hydroxytoluene (BHT) was present in the test system. However, when the antioxidant was omitted, increased levels of thiobarbituric acid reactive material were found which correlated with the triglyceride content. This could explain some published data that have been taken as indication for a prooxidative action of OA. Evidence against an increased lipid peroxidation in vivo is given by the analysis of ethane exhalation. Furthermore, no increase in DNA single strand breaks by OA treatment could be observed by the alkaline elution technique. These results do not support the hypothesis of a prooxidative activity of OA. The observed reversible decrease of the GSH/GSSG ratio is assumed to result from the reduced size of the phosphopyridine nucleotide pool due to purine deficiency and an increased consumption of NADPH by the enhanced reductive degradation of pyrimidines.
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PMID:Effect of orotic acid on the generation of reactive oxygen and on lipid peroxidation in rat liver. 201 18

Effect of dietary calorie restriction and fat reduction on growth of established mammary carcinoma in rats and on glutathione levels in liver and tumor tissue was investigated. Reduced (GSH) and oxidized (GSSG) glutathione were determined enzymatically. Female Sprague-Dawley rats were injected with 25 mg/kg methylnitrosourea (MNU) on day 50 of life for tumor induction, and subsequently fed a diet containing 50 kcal/day with 45% (energy %) fat. When tumors reached approximately 1 cm3, the diet was changed for 10 +/- 2 weeks. Four dietary groups were formed: two high calorie groups (50 kcal/day) with 45% or 25% fat and two calorie restricted groups (35 kcal/day) with 45% or 25% fat, respectively. Tumor growth was significantly inhibited by the 30% calorie restriction, and the inhibition was most effective in the calorie restricted group with low fat level. However, reduction of fat, alone, had no significant inhibitory effect. GSSG levels in both liver and tumor showed no differences among the groups. Hepatic GSH levels tended to be lower in the calorie-restricted groups, and showed no difference between isocaloric groups with different fat levels. In contrast, GSH in tumor tissue tended to be lower in the low fat groups, independently of calorie levels.
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PMID:Effect of dietary calorie and fat restriction on mammary tumor growth and hepatic as well as tumor glutathione in rats. 202 87

To examine the role of doxorubicin-stimulated oxyradical formation in tumor cell killing, we introduced glutathione peroxidase (GSH Px) or superoxide dismutase (SOD) into MCF-7 cells by "scrape loading." Control cytoplasmic GSH Px and SOD levels increased from (mean +/- S.E.) 0.37 nmol/min/mg and 0.58 microgram SOD/mg, respectively, to 3.99 or 7.63 nmol/min/mg and 1.40 or 1.83 micrograms SOD/mg after treatment with either 150 or 300 units/ml of GSH Px or 20 or 40 mg/ml SOD. Resistance to doxorubicin was correlated with the level of GSH Px introduced into the MCF-7 cells; a one-hour exposure to 1.75 microM doxorubicin decreased the cloning efficiency of control cells loaded with medium alone to 34%, whereas doxorubicin-treated cells augmented with 150 or 300 units/ml of GSH Px had plating efficiencies of 56 or 86%, P less than 0.05. Introduction of SOD increased MCF-7 resistance to doxorubicin similarly. The heat-inactivated enzymes were not protective. Cells loaded with GSH Px were also resistant to the redox cycling anticancer quinone mitomycin C but not to the redox inactive analogs 5-iminodaunorubicin and mitoxantrone, suggesting that amplification of GSH Px or SOD levels can produce doxorubicin resistance in MCF-7 cells.
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PMID:Doxorubicin resistance conferred by selective enhancement of intracellular glutathione peroxidase or superoxide dismutase content in human MCF-7 breast cancer cells. 206 Aug 50

To determine whether oxidants capable of DNA modification are produced by cells treated with tumor promoters, we adapted a fluorometric method to our needs. HeLa cells were preincubated with 2',7'-dichlorofluorescin diacetate (DCFdAc), treated with various agents, sonicated, centrifuged and fluorescence of the oxidized product (DCF) was determined in supernatants. When cells were exposed to H2O2 in the presence of azide (catalase inhibitor) or o-phenanthroline (a lipophilic Fe chelator), an increase in fluorescence was observed. These results show that some Fe ions were interacting with the H2O2 which entered the cells, thus decreasing its levels available for oxidation of the substrate and potentially increasing formation of .OH, known DNA-damaging species. Glutathione (GSH), which is present in cells in substantial amounts, was found to reduce DCF whereas azide counteracted GSH-mediated reduction. Treatment of HeLa cells with 12-0-tetradecanoyl-phorbol-13-acetate (TPA) in the presence of DCFdAc and azide resulted in dose- and time-dependent formation of DCF. Even when cells were sonicated prior to incubation with TPA, DCF was formed at levels proportional to the number of cells as well as dose of TPA. Flow cytometry of TPA-treated cells confirmed these findings. These results demonstrate that tumor promoters can cause oxidative activation of HeLa cells, which produce active oxygen species, most likely H2O2, that ultimately contribute to the formation of oxidized bases such as 5-hydroxymethyl uracil in cellular DNA. They also show that this fluorometric method can be utilized for determination of cellular H2O2 formation at nM concentrations.
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PMID:Hydrogen peroxide formation by cells treated with a tumor promoter. 206 Aug 51

Exposure of cultured human melanoma cells from three different cell lines to Adriamycin and carmustine at non-cytotoxic (micromolar) concentrations results in a rapid, reversible depletion of cellular glutathione; maximal depletion is achieved within 1 h, and glutathione levels recover within 2-3 h. Glutathione depletion is accompanied by an enhancement of the cytotoxic effects of the alkylating agent melphalan, which ranges from 15- to 55-fold. These results suggest that the combination of Adriamycin and carmustine may provide a rational drug combination for the rapid depletion of glutathione from malignant melanoma, thereby sensitizing these tumor cells to alkylating agent cytotoxicity.
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PMID:Sensitization of human melanoma cells to melphalan cytotoxicity by adriamycin and carmustine. 206 51

Resistance of a rat ovarian tumor cell line (O-342/DDP) to cisplatin was induced in vitro by stepwise increase of cisplatin concentrations. Both chemosensitive parental cells (O-342) and resistant O-342/DDP cells grow in a monolayer and enter log-phase growth about 24 h after seeding (cell population doubling time in log-phase growth is about 24 h). O-342/DDP cells show a 33-fold resistance to cisplatin as compared to O-342 cells (ID50 = 33 microM in O-342/DDP vs 1 microM in O-342 cells). The intracellular total glutathione (GSH + GSSG) of O-342/DDP cells was twice as high as that of O-342 cells (3.04 vs 1.37 nmol/10(6) cells), while the intracellular GSSG was increased by 26% in O-342/DDP cells compared to O-342 cells. DNA interstrand crosslinks were found to be 8.5 times higher in O-342 cells than in O-342/DDP cells (204 vs 24 rad equiv.), following cisplatin treatment. DNA single-strand breaks were approximately doubled in the sensitive line as compared to the resistant line following exposure to cisplatin. Chromosome analysis uncovered a change in the karyotype of O-342/DDP cell as compared to O-342 cells. In the sensitive line hyperploid (3n) clones, in the resistant line near-diploid clones predominated. Both DL-buthionine-(S,R)-sulfoximine and 3-aminobenzamide were able to sensitize the resistant line towards cisplatin. Thus, the present results suggest that mechanisms for cisplatin resistance in this tumor line apparently are multi-factorial, and include a higher intracellular GSH content and an increased repair activity.
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PMID:In vitro investigations on induction and reversal of cisplatin resistance in a rat ovarian tumor cell line. 212 38

Glutathione is the most abundant low molecular mass thiol in human cells. It is involved in the inactivation of genotoxic electrophilic compounds, and a variety of glutathione-linked enzymes catalyze such detoxication reactions. Within this group, the enzymes occurring in highest intracellular concentrations are the glutathione transferases, which catalyze the detoxication of a broad spectrum of alkylating and oxidizing compounds such as epoxides, reactive alkenes and organic hydroperoxides. Multiple forms of glutathione transferase with distinct substrate specificities exist, and their differential expression in cells contributes to differences in detoxication capacities in tissues. Glyoxalase I catalyzes the inactivation of 2-oxoaldehydes and may also be considered as part of the cellular detoxication system. Characterization of the different enzymes and their differential expression in normal and tumor cells will help to clarify their cellular functions and their significance to human cancer. Clear differences in the occurrence of the various enzyme forms in normal and tumor cells have been demonstrated and variations between different tumors appear to be linked to their degree of resistance to alkylating cytostatic drugs. Modulation of catalytic activities in vitro by administration of enzyme inhibitors may help to overcome this resistance.
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PMID:Glutathione-linked enzymes in normal and tumor cells and their role in resistance against genotoxic agents. 213 80


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