UMLS:C0023418 - FACTA Search

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Query: UMLS:C0023418 (leukemia)
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Tetraplatin (Ormaplatin) has good antitumor activity against some cisplatin-resistant cells and is currently being studied in clinical trials. We have studied the effect of extracellular reduced glutathione (GSH) on the cytotoxicity and biochemical pharmacology of tetraplatin in L1210 leukemia cells. Parent L1210/0 cells were exposed to tetraplatin for 2 hr with or without GSH in Hanks' balanced salt solution (HBSS), and cytotoxicity was assessed by a soft agar clonogenic assay. GSH (10 or 100 microM) increased tetraplatin (10 microM)-induced cell kill by about 2 logs; concentrations of the thiol 10-fold below or above these levels increased cell kill to a lesser degree. GSH-mediated increases in the cytotoxicity of tetraplatin were also observed against cisplatin-resistant L1210/DDP and tetraplatin-resistant L1210/DACH cells. An equimolar concentration of 1,2-diaminocyclohexane-platinum(II) dichloride [DACH-Pt(II)Cl2] alone was as cytotoxic as the combination of tetraplatin and GSH. Intracellular accumulations of tetraplatin in both L1210/0 and L1210/DDP cells were increased by GSH, whereas in L1210/DACH cells platinum uptake decreased in the presence of the thiol. Reactions between tetraplatin and salmon sperm DNA in the presence or absence of GSH (1 or 100 microM), performed at 37 degrees in HBSS, revealed that levels of total and interstrand DNA-platinum adducts were minimal in the absence of GSH, whereas in the presence of GSH DNA adducts of tetraplatin were substantial and similar to those seen with DACH-Pt(II)Cl2. Tetraplatin (10 microM) incubated at 37 degrees in HBSS with GSH (10 microM-1 mM) was reduced chemically to the DACH-Pt(II) species within 5 min; a 200-microM tetraplatin solution required a GSH concentration of at least 100 microM for substantial reduction to occur. This chemical reduction of tetraplatin appears to be a prerequisite for its biological activity. Thus, extracellular GSH can modulate the biological activity of tetraplatin, and the combination may prove useful in specific clinical applications, such as intracavitary platinum therapy.
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PMID:Glutathione-mediated modulation of tetraplatin activity against sensitive and resistant tumor cells. 818 78

Accumulating evidence suggests a critical role of intracellular glutathione in tumor cell resistance to alkylating agents. The present study provides evidence for the direct interaction between cis-diamminedichloroplatinum(II) (cisplatin) and glutathione (GSH) both in a cell-free system, as well as in L1210 murine leukemia cells. We have isolated the reaction product and identified it by a combination of high performance liquid chromatography and atomic absorption spectroscopy. Stoichiometric analysis showed a 2:1 molar ratio of GSH/cisplatin for the reaction. The molecular mass assessed by mass spectroscopy was 809 Da, corresponding to a GS-platinum chelate complex, bis-(glutathionato)-platinum. The GS-platinum complex was detected in L1210 leukemia cells incubated with 20 microM cisplatin. The intracellular content of the GS-platinum complex reached a maximal level after 12 h, corresponding to about 60% of the intracellular platinum content. Thus, formation of the GS-platinum complex is considered a significant part of the cellular metabolism of cisplatin. The GS-platinum was found to inhibit cell-free protein synthesis in a rabbit reticulocyte lysate system using both chloramphenicol acetyltransferase mRNA and poly(A) mRNA from HL-60 human promyelocytic leukemia cells (IC50 = 190 microM the GS-platinum complex). Elimination of the GS-platinum complex from tumor cells may represent an important mechanism which reduces the intracellular accumulation of the platinum complex. Using plasma membrane vesicles prepared from L1210 cells, the transport of the GS-platinum complex across the plasma membrane was found to be an ATP-dependent process (apparent Km values: 49 microM, ATP; 110 microM, GS-platinum complex). The ATP-dependent transport of the GS-platinum complex was inhibited by vanadate (IC50 = 35 microM) as well as by S-(2,4-dinitrophenyl)-glutathione, leukotriene C4, and GSSG, but not by doxorubicin, daunorubicin, or verapamil. The ATP-dependent glutathione S-conjugate export pump, "GS-X pump" (Ishikawa, T. (1992) Trends Biochem. Sci. 17, 463-468), is suggested to play a role in the elimination of the GS-platinum complex from tumor cells.
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PMID:Glutathione-associated cis-diamminedichloroplatinum(II) metabolism and ATP-dependent efflux from leukemia cells. Molecular characterization of glutathione-platinum complex and its biological significance. 837 70

Exposure of humans and experimental animals to benzene has been shown to result in hematotoxicity such as pancytopenia, aplastic anemia, and leukemia. The oxidative activation of the benzene metabolite, hydroquinone (HQ), in the bone marrow to the electrophilic benzoquinone (BQ) has been suggested to play an important role in benzene-induced hematotoxicity. Since the interaction of several xenobiotics with copper has been shown to result in their metabolism, in this study we have investigated the role of copper in the oxidation of HQ and HQ-induced toxicity to mice bone marrow stromal cells, target cells of HQ in the bone marrow. In phosphate-buffered saline, HQ underwent autoxidation slowly to BQ, while the presence of Cu(II) ions (1, 2.5, 5, 10, 50 microM) strongly accelerated the oxidation of HQ to BQ in a concentration-dependent manner. Reaction of HQ with Cu(II) was also accompanied by the reduction of Cu(II) to Cu(I), the utilization of O2, and the concomitant generation of H2O2. The oxidation of HQ by Cu(II) could be blocked by the Cu(I)-specific chelator bathocuproinedisulfonic acid (BCS), particularly when the ratio of BCS to Cu(II) was 4:1. By observing the kinetics of the reactions derived from mixing 100 microM HQ and 100 microM Cu(II), it was found that all of the Cu(II) was reduced to Cu(I) within 5 s, followed by consumption of O2 and the generation of BQ, which reached maximum levels at 4 min after mixing HQ and Cu(II). In addition, oxidation of HQ by Cu(II) also generated chemiluminescence. In the presence of myeloperoxidase, Cu(II)-mediated oxidation of HQ was increased. Addition of Cu(II) to primary bone marrow stromal cell cultures significantly enhanced HQ-induced cytotoxicity. The enhanced cytotoxicity of HQ by Cu(II) could be completely prevented by adding BCS, glutathione (GSH), or dithiothreitol but not by catalase. Supplementation of stromal cells with 20 microM BCS in the absence of exogenously added Cu(II) significantly abated HQ-induced cellular GSH depletion and cytotoxicity, suggesting a possible involvement of endogenous copper in the activation of HQ. The above results indicate that Cu(II) strongly induces the oxidation of HQ and as such may be a factor involved in the oxidative activation and toxicity of HQ in target cells.
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PMID:Oxidation of hydroquinone by copper: chemical mechanism and biological effects. 842 68

N-deformyl-N-[4-N,N-bis(2-chloroethylamino)benzoyl] distamycin-A (FCE 24517) is a new cytotoxic anti-tumor agent in phase-1 clinical trials. We have isolated stable FCE-24517-resistant cell sublines from murine leukemia L1210 cells by in vitro exposure to the drug. FCE 24517 selects a mixed population of resistant cells: the L1210/24517(1) cell line in vitro was in fact resistant to the selecting agent (RI 48.3), as well as to L-PAM (RI 5.4) and DX (RI 8.6) and over-expressed the mdr-I gene. When L1210/24517(1) cells were implanted in vivo and evaluated for sensitivity to the same agents, resistance was observed only to FCE 24517 and partially to L-PAM, whereas DX had the same anti-tumor efficacy as on the sensitive line. The clone derived from the above subline (L1210/24517(2)) was resistant to FCE 24517, distamycin-A and other cytotoxic compounds bearing the distamycin-A skeleton, and fully sensitive to DX and other anti-tumor compounds involved in the multi-drug resistance mechanisms, with a complete disappearance of the mdr phenotype. L1210/24517(2) cell line is partially cross-resistant to L-PAM, this resistance being accounted for by higher GSH intracellular levels, which however do not influence the resistance to FCE 24517. In fact, BSO treatment was capable of significantly modifying only the cytotoxicity of L-PAM. Our data suggest that L1210/24517(2) cells present a mechanism of resistance specific for FCE 24517 and related molecules.
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PMID:Establishment of L1210 leukemia cells resistant to the distamycin-A derivative (FCE 24517): characterization and cross-resistance studies. 842 70

Merocyanine 540 (MC540) is a lipophilic photosensitizing dye of biomedical interest in connection with its ability to preferentially inactivate leukemia cells in bone marrow grafts and enveloped viruses in blood products. Evidence that iron plays a role in dye-mediated photokilling is presented in this report. When sensitized with MC540 and irradiated with visible light, cultured murine leukemia L1210 cells underwent lipid peroxidation (accumulation of iodometrically detectable lipid hydroperoxides) and photokilling (loss of clonogenic capacity). Selenium-deficient [Se(-)] cells, which expressed minimal selenoperoxidase activity, were found to be more sensitive to photoperoxidation and photokilling than selenium-replete [Se(+)] controls. Since redox active iron in the presence of electron donors has been shown to exacerbate photoperoxidative damage in isolated membrane systems, it was of interest to examine the possible role of iron in MC540/light-induced cytotoxicity. Involvement of iron was established by showing (i) that desferrioxamine (a high-affinity chelator and redox inhibitor of Fe3+) acted protectively on Se(-) and Se(+) cells and (ii) that treating these cells with sublethal concentrations of the lipophilic chelate ferric 8-hydroxyquinoline [Fe(HQ)2] made them much more sensitive to photokiling and thiobarbituric acid-detectable lipid peroxidation. Lehal damage induced by t-butyl hydroperoxide was also amplified by Fe(HQ)2. Fe(HQ)2-enhanced photoperoxidation and photokilling were suppressed by alpha-tocopherol, suggesting that iron-catalyzed free radical reactions were involved. A mechanism based on iron-mediated one-electron reduction of nascent photoperoxides is proposed. We believe that under the conditions used, toxic one-electron chemistry overwhelms two-electron detoxification catalyzed by GSH-dependent selenoperoxidase(s).
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PMID:Photodynamic action of merocyanine 540 on leukemia cells: iron-stimulated lipid peroxidation and cell killing. 843 51

Murine leukemia L1210 cells grown for 5-7 d in the presence of 1% serum without added selenium [Se(-) cells] expressed < 5% of the glutathione peroxidase (GPX) activity of selenium-supplemented controls [Se(+) cells]. Clonogenic survival assays indicated that t-butyl hydroperoxide (t-BuOOH) is much more toxic to Se(-) cells (LC50 approximately 10 microM) than to Se(+) or selenium-repleted [Se(-/+)] cells (LC50 approximately 250 microM). Hypersensitivity of Se(-) cells to t-BuOOH was partially reversed by treating them with Ebselen, a selenoperoxidase mimetic; thus, selenoperoxidase insufficiency was probably the most serious defect of Se deprivation. Cytotoxicity of t-BuOOH was inhibited by desferrioxamine and by alpha-tocopherol, indicating that redox iron and free radical intermediates are involved. Elevated sensitivity of Se(-) cells to t-BuOOH was accompanied by an increased susceptibility to free radical lipid peroxidation, which became even more pronounced in cells that had been grown in arachidonate (20:4, n-6) supplemented media. That glutathione (GSH) is required for cytoprotection was established by showing that Se(+) cells are less resistant to t-BuOOH after exposure to buthionine sulfoximine (BSO), an inhibitor of GSH synthesis, or 1,3-bis(2-chloroethyl)-1-nitrosourea (BCNU), an inhibitor of glutathione reductase. Coupled enzymatic assays indicated that Se(+) or Se(-/+) cells metabolize t-BuOOH 20-25 times more rapidly than Se(-), consistent with the measured difference in GPX activities of these cells. Correspondingly, when challenged with t-BuOOH, Se(+) cells showed an initial loss of GSH and elevation of GSSG that exceeded that of Se(-) cells. It was further shown that like Se(-) cells, BSO- or BCNU-treated Se(+) cells metabolize t-BuOOH more slowly than nontreated controls. These results clearly indicate that selenoperoxidase action in the glutathione cycle is a vital element in cellular defense against toxic hydroperoxides.
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PMID:Selenoperoxidase-mediated cytoprotection against the damaging effects of tert-butyl hydroperoxide on leukemia cells. 845 83

Intracellular glutathione (GSH) content was measured by flow cytometry using monochlorobimane (mBCl) and by the enzymatic assay in a set of 6 sublines of murine L1210 leukemia cells made resistant to DNA-interacting agents having distinct mechanisms of action: L-phenylalanine mustard (L-PAM), 1,3-bis(2-chloroethyl)-I-nitrosourea (BCNU), cisplatin (DDP), N-deformyl-N-(4-N,N-bis(2-chloroethylamino) benzoyl) distamycin A (FCE 24517), doxorubicin (DX) and 3'-deamino-3' (2-methoxy-4-morpholinyl)-doxorubicin (FCE 23762). A significant correlation was demonstrated between the mean intracellular mBCl fluorescence values measured by flow cytometry and levels of GSH measured by the classical enzymatic assay, despite the possible influence of glutathione-S-transferases and of other thiols on the mBCl fluorescence. Although less specific, the flow cytometric method is more informative than the enzymatic assay, allowing detection of fluorescence distributions, which we proved to be characteristic of each subline. In order to assess a procedure enabling a quantitative analysis to be made of intercellular GSH heterogeneity, we propose the use of appropriate thresholds and parameters of the mBCl flow cytometric distribution. By use of this analysis procedure, distinct types of alterations, with respect to the heterogeneity distribution of the parental L1210 cell line, have been evidenced in resistant cells. A uniform increase in mBCl fluorescence was observed among cells of the sublines resistant to L-PAM and FCE-24517. The mean mBCl fluorescence increase in sublines resistant to DX and DDP was due to a higher number of cells with fairly high mBCl fluorescence, but still within the range spanned by the parental cell line. A less heterogeneous mBCl fluorescence distribution was found in the L1210 subline resistant to FCE 23762, which was, however, similar to a cloned sensitive line. Though GSH was linked to the principal cause of drug resistance only in the L-PAM-resistant cell line, alterations in heterogeneity, as detected by mBCl fluorescence distributions, were found in 5 out of 6 resistant lines.
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PMID:Intracellular glutathione heterogeneity in L1210 murine leukemia sublines made resistant to DNA-interacting anti-neoplastic agents. 850 18

O6-Methyl-2'-deoxyguanosine (O6-MedG), a novel inhibitor of O6-alkylguanine-DNA alkyltransferase (O6-AGT), has been synthesized. The ability of O6-MedG to deplete the O6-AGT activity in leukemia L1210 and melanoma B16 cells in vivo has been studied. After intraperitoneal administration of O6-MedG to mice bearing leukemia L1210 or melanoma B16, the activity of O6-AGT in tumour cells decreased by 50%. Pretreatment of leukemia L1210 bearing mice with O6-MedG (200 mg/kg) 24 hours prior to ACNU (15 mg/kg) administration resulted in six out of seven 60-day survivors. Treatment of mice with ACNU (15 mg/kg) alone increased the life span by 200%. Treatment of melanoma B16 bearing mice with O6-MedG and 3 hours thereafter with ACNU resulted in a 50% inhibition of tumour growth, whereas the inhibiting effect of ACNU alone was 16%. There was no difference in leukemia growth when L1210/BCNU bearing mice were treated with O6-MedG followed by ACNU treatment. In vivo ACNU (15 mg/kg) produced a deep and prolonged inhibition of DNA, RNA and protein synthesis in leukemia L1210 cells. The DNA synthesis in leukemia L1210/BCNU cells was shown to recover more rapidly than in L1210 cells. The activities of DNA-polymerases alpha and beta and, especially, of O6-AGT were elevated in ACNU-resistant leukemia cells as compared with ACNU-sensitive cells. The activation of some repairing enzymes, such as O6-AGT, DNA-polymerases alpha and beta as well as increased levels of GSH may play a role in the development of drug resistance to ACNU.
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PMID:[Modulation of the antitumor activity of 1-(4-amino-2-methyl-5-pyrimidinyl)methyl-3-(2-chloroethyl)-3-nitrosoure a by O(6)-methyl-2'-deoxyguanosine--a new inhibitor of O(6)-alkylguanine-DNA-alkyltransferase]. 856 57

We recently reported that GS-X pump activity, as assessed by ATP-dependent transport of the glutathione-platinum complex and leukotriene C4, and intracellular glutathione (GSH) levels were remarkably enhanced in cis-diamminedichloroplatinum(II) (cisplatin)-resistant human leukemia HL-60 cells (Ishikawa, T., Wright, C. D., and Ishizuka, H. (1994) J. Biol. Chem. 269, 29085-29093). Now, using Northern hybridization and RNase protection assay, we provide evidence that the multidrug resistance-associated protein (MRP) gene, which encodes a human GS-X pump, is expressed at higher levels in cisplatin-resistant (HL-60/R-CP) cells than in sensitive cells, whereas amplification of the MRP gene is not detected by Southern hybridization. Culturing HL-60/R-CP cells in cisplatin-free medium resulted in reduced MRP mRNA levels, but these levels could be induced to rise within 30 h by cisplatin and heavy metals such as arsenite, cadmium, and zinc. The increased levels of MRP mRNA were closely related with enhanced activities of ATP-dependent transport of leukotriene C4 (LTC4) in plasma membrane vesicles. The glutathione-platinum (GS-Pt) complex, but not cisplatin, inhibited ATP-dependent LTC4 transport, suggesting that the MRP/GS-X pump transports both LTC4 and the GS-Pt complex. Expression of gamma-glutamylcysteine synthetase in the cisplatin-resistant cells was also co-induced within 24 h in response to cisplatin exposure, resulting in a significant increase in cellular GSH level. The resistant cells exposed to cisplatin were cross-resistant to melphalan, chlorambucil, arsenite, and cadmium. These observations suggest that elevated expression of the MRP/GS-X pump and increased GSH biosynthesis together may be important factors in the cellular metabolism and disposition of cisplatin, alkylating agents, and heavy metals.
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PMID:Coordinated induction of MRP/GS-X pump and gamma-glutamylcysteine synthetase by heavy metals in human leukemia cells. 866 1

We have previously shown that the multidrug resistance protein (MRP) mediates the ATP-dependent membrane transport of the endogenous glutathione conjugate leukotriene C4 (LTC4) and of structurally related anionic conjugates of lipophilic compounds [Jedlitschky, Leier, Buchholz, Center and Keppler (1994) Cancer Res. 54, 4833-4836; Leier, Jedlitschky, Buchholz, Cole, Deeley and Keppler (1994) J. Biol. Chem. 269, 27807-27810]. We demonstrate in the present study that MRP also mediates the ATP-dependent transport of GSSG, as shown in membrane vesicles from human leukaemia cells overexpressing MRP (HL60/ADR cells) or HeLa cells transfected with an MRP expression vector (HeLa T5 cells) in comparison with the respective parental or control cells. The Km value for ATP-dependent transport of GSSG was 93 +/- 26 microM (mean value +/- S.D., n=5) in membrane vesicles from HeLa T5 cells. GSH, at a concentration of 100 microM, was not a substrate for any significant ATP-dependent MRP-mediated transport. The transport of GSSG was competitively inhibited by LTC4, by the leukotriene D4 receptor antagonist 3-([{3-(2-[7-chloro-2-quinolinyl]ethenyl)phenyl}-{(3-dimethylamino-3- oxopropyl)-thio}-methyl]thio)propanoic acid (MK 571) and by S-decylglutathione, with K1 values of 0.3, 0.6 and 0.7 microM respectively. These studies identify MRP as the membrane glycoprotein which mediates the ATP-dependent export of GSSG from these cells.
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PMID:ATP-dependent glutathione disulphide transport mediated by the MRP gene-encoded conjugate export pump. 867 53

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