UMLS:C0023418 - FACTA Search

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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have examined the relationship between cis-diamminedichloroplatinum(II) (cisplatin) resistance and replicative bypass in the human ovarian carcinoma cell lines 2008, A2780, and their respective cisplatin-resistant derivatives C13* and A2780/DDP. Replicative bypass is defined as the ability of a replication complex to proceed past a DNA adduct known to block or stall the complex during synthesis. Previous studies in our laboratory have shown a 3-4-fold increase in the replicative bypass of platinum-DNA adducts in platinum-resistant murine leukemia cell lines [G. R. Gibbons et al, Carcinogenesis (Lond.), 12: 2253-2257, 1991]. To test for this effect in the human lines, we used a steady-state replication assay which measures the inhibition of DNA chain elongation (based on the incorporation of [3H]thymidine into nascent DNA strands) as a function of the number of platinum-DNA adducts present on the DNA following cisplatin treatment. With this technique we demonstrated a 4.5-fold increase in the replicative bypass ability of the C13* line compared to the 2008 line and a 2.3-fold increase in the bypass ability of the A2780/DDP line compared to the A2780 line. To confirm these results, we performed a pulse-chase replication assay on the 2008 and C13* lines. This assay differs from the first in that DNA chain elongation is measured in a time-dependent manner. With the pulse-chase assay we observed a 4.8-fold increase in the replicative bypass ability of the C13* line compared to the 2008 line. We then examined the specificity of this enhanced bypass by repeating the steady-state assay with the 2008 and C13* lines using as damaging agents 1,2-diaminocyclohexanedichloroplatinum(II), UV radiation (producing pyrimidine dimers), and benzo(a)pyrene-7,8-diol-9,10-epoxide. In both cell lines, 1,2-diaminocyclohexanedichloroplatinum(II)-DNA adducts caused a greater inhibition of DNA chain elongation than cisplatin-DNA adducts. The level of enhanced bypass of 1,2-diaminocyclohexanedichloroplatinum(II)-DNA adducts in the resistant line was 2.1-fold (approximately 2-fold less than the level of enhanced bypass observed with cisplatin-DNA adducts). There was no evidence of enhanced bypass in the resistant line when cells were treated with UV light or benzo(a)pyrene-7,8-diol-9,10-epoxide. These results indicate that the bypass response in the C13* line has some degree of specificity for cisplatin adducts. The specificity of bypass in these cell lines coincided well with the specificity of resistance to each agent.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Enhanced replicative bypass of platinum-DNA adducts in cisplatin-resistant human ovarian carcinoma cell lines. 801 73

A platinum(II) and 3 platinum(IV) ammine/cycloalkylamine homologous series were evaluated for cytotoxicity and biochemical pharmacology in murine leukemia L1210/0, cis-diamminedichloroplatinum(II)- resistant L1210/DDP, and diaminocyclohexaneplatinum-resistant L1210/1,2-diaminocyclohexane (DACH) cells. Within each series, which contained 4 homologues with differing alicyclic (cycloalkyl) ring size (cyclopropane, cyclobutane, cyclopentane, or cyclohexane), cytotoxicity increased with increasing ring size. This appeared to be due to an increase in partition coefficient, and the resulting increase in drug accumulation and intracellular DNA adducts in ascending each of the series. There were exceptions to this generalization, predominantly in L1210/DACH cells, where the biochemical pharmacology was not entirely consistent with the cytotoxic response and suggested that other factors may be at play. The relationship between structure and ability to circumvent cis-diamminedichloroplatinum(II) and/or trans-1R,2R-1S,2S- diaminocyclohexanetetrachloroplatinum(IV) resistance was complex. Ascending the platinum(II) series caused resistance factors to decrease in L1210/DDP cells but increase in L1210/DACH cells. An increase in resistance factors was also observed in ascending the axial chloroplatinum(IV) series in the L1210/DACH line. In contrast, ascending the axial chloroplatinum(IV) series in the L1210/DDP line and axial acetatoplatinum(IV) and axial hydroxoplatinum(IV) series in both cell lines resulted in increases in resistance factors for the first stepwise increase in the cycloalkylamine ring size, but resistance factors then decreased progressively with further increases in ring size. Reduction of the platinum(IV) analogues to the platinum(II) congener appears to be necessary for binding to DNA. The similarity in biological actions between the platinum(II) and axial chloroplatinum(IV) series is likely due to the rapid reduction of tetravalent members to platinum(II) forms. The axial acetatoplatinum(IV) and axial hydroxoplatinum(IV) complexes were reduced more slowly, which may explain their lower potency, but not the ability of the higher member to circumvent both cis-diamminedichloroplatinum(II) and trans-1R,2R-1S,2S- diaminocyclohexanetetrachloroplatinum(IV) resistances. Explanation for this will require additional studies. The results have demonstrated high dependencies on ring size of the carrier amine ligand, valence state of platinum, and the nature of the axial ligand for modulation of potency, cross-resistance property, and biochemical pharmacology of ammine/cycloalkylamine complexes.
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PMID:Axial ligands and alicyclic ring size modulate the activity and biochemical pharmacology of ammine/cycloalkylamine-platinum(IV) complexes in tumor cells resistant to cis-diamminedichloroplatinum(II) or trans-1R,2R-1S,2S-diaminocyclohexanetetrachloroplatinum(IV). 806 66

The synthesis, characterization, and antitumor activity of a series of platinum(IV) complexes of the type DACH-PtIV(X)2Y (where DACH = trans-dl, or trans-l-1,2-diaminocyclohexane, X = OH or Cl, and Y = oxalato, malonato, methylmalonato, tartronato, ketomalonato, 1,1-cyclopropanedicarboxylato, or 1,1-cyclobutanedicarboxylato, are described. These complexes have been characterized by elemental analysis, HPLC, and infrared and 195Pt NMR spectroscopic techniques. The complexes had good in vitro cytotoxic activity (IC50 = 0.14-7.6 micrograms/ml) and were highly active in vivo against leukemia L1210 cells (%T/C = 152- > 600, cisplatin = 218). In addition, excellent in vivo antitumor activities against B16 melanoma (%T/C = 309), M5076 reticulosarcoma (100% cures) and cisplatin-resistant L1210/DDP (%T/C = 217) cell lines were also exhibited by an analog selected for further evaluation.
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PMID:Synthesis and antitumor activity of 1,2-diaminocyclohexane platinum(IV) complexes. 815 10

Acquired drug resistance is a major drawback of using cisplatin in the treatment of cancer; however, platinum analogs containing the 1,2-diaminocyclohexane (DACH) ligand can overcome this resistance. DACH can exist as the trans-1R,2R, trans-1S,2S or cis isomer, and we have previously established that the R,R form of DACH-Pt(II) complex is in general superior. Here, we have examined if specific axial and/or equatorial ligands attached to a platinum(IV) center can modulate the antitumor activities of R,R-DACH-Pt complexes in murine tumor models in vivo. Four series of R,R-DACH-Pt complexes were synthesized, with each series consisting of one platinum(II) complex and three corresponding platinum(IV) analogs, each differing by the chemical nature of the axial ligand (chloro, hydroxo or acetato). Combination of axial chloro with equatorial chloro (Cl2Cl2), 1,1-cyclobutanedicarboxylato (Cl2CBDCA), tartronato (Cl2Tart) or methylmalonato (Cl2MeMal) gave activities which were similar to or greater than those of the corresponding platinum(II) complex in the cisplatin-sensitive L1210/0 or cisplatin-resistant L1210/DDP leukemia and solid M5076 reticulosarcoma models. The exception was the complex Cl2Cl2 in the M5076 model, which was 2-fold less sensitive to this platinum(IV) complex than to the corresponding platinum(II) analog. Axial hydroxo or acetato platinum(IV) complexes were effective in combination with equatorial chloro ([OH]2Cl2 or Ac2Cl2) or tartronato ([OH]2Tart or Ac2Tart) against L1210/0, L1210/DDP and M5076 cells, but effective only against M5076 cells when combined with equatorial 1,1-cyclobutanedicarboxylato (CBDCA) or methylmalonato. The results demonstrated a profound effect of axial and equatorial ligands on the antitumor activities of R,R-DACH-Pt(IV) complexes. Furthermore, these modulatory effects could be influenced strongly by the tumor model. The interesting finding from this structure-activity study was the emergence of R,R-DACH([OH]2Cl2)Pt(IV) complex as a 'lead' analog worthy of further exploration.
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PMID:Modulatory effect of axial and equatorial ligands on antitumor activities of trans-1R,2R-diaminocyclohexane platinum(IV) complexes. 816 29

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

Acquired drug resistance is a major drawback of using cisplatin in the treatment of cancer; however, analogs containing the 1,2-diaminocyclohexane (DACH) ligand can overcome this resistance. DACH can exist as the trans-1R,2R, trans-1S,2S or cis isomer, and we have examined whether specific isomers coordinated to a platinum(IV) center can modulate antitumor activities in murine tumor models in vivo. Ten isomeric series of DACH-Pt(IV) complexes were synthesized, each series containing a different combination of axial and equatorial ligands and varying only by the isomeric form of the DACH ligand. Among the ten series, seven clearly indicated superiority of the (R,R)-DACH-Pt(IV) complex against leukemia L1210/0 cells, while in three the R,R and S,S configurations gave similar efficacies which were better than that of the corresponding cis analog. In three out of the ten series, the antitumor activities of the S,S and cis complexes were similar, in six the cis analogs were the least effective, and in the remaining one the cis analog was superior to S,S. One series of complexes with axial chloro ligands and an equatorial 1,1-cyclobutanedicarboxylato group, which had produced the efficacy ranking R,R > cis > S,S in the L1210/0 model, gave S,S > R,R > cis against cisplatin-resistant L1210/DDP cells, R,R = S,S > cis against B16 melanoma cells, and R,R = S,S = cis against M5076 reticulosarcoma cells. The results demonstrate that profound variation can occur in antitumor activities among isomeric forms of the DACH-Pt(IV) complex. However, the (R,R)-DACH-Pt(IV) complexes appear to be of greater interest overall.
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PMID:Antitumor activity of isomeric 1,2-diaminocyclohexane platinum(IV) complexes. 818 34

The distribution and elimination kinetics of cis-diamminedichloroplatinum (II) (DDP) in female BDF1 mice bearing 6-day P388 leukemia were investigated in the presence and absence of procaine hydrochloride (P.HCl) exposure. DDP was administered as a single i.p. dose of 8 mg/kg in a 0.9% NaCl solution 6 days after tumor inoculum. P.HCl was administered as a single i.v. dose of 40 mg/kg immediately after DDP. The combined treatment with P.HCl produced marked changes in the plasma concentration-time profile of Pt. The unbound fraction of Pt was significantly increased both in the ascites fluid and plasma following DDP + P.HCl administration. P.HCl treatment induced a significant reduction (P < 0.01) in the rate constant of the protein-bound of Pt in plasma of tumored mice. Urinary excretion of Pt was unaffected by P.HCl, and there was no significant P.HCl-induced modification in the concentrations of Pt in the P388 leukemic cells. A statistically significant reduction of kidney and spleen Pt content was observed in female mice exposed to a dose of 8 mg/kg DDP + P.HCl. A similar reduction was observed in kidneys and testes of tumored mice receiving 16 mg/kg DDP along with 40 mg/kg P.HCl, which also showed lower renal and testicular cisplatin-DNA adducts after DDP + P.HCl than after DDP treatment. Potential explanations for the ability of P.HCl to interfere with the pharmacokinetics and biodistribution of DDP are discussed.
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PMID:Cis-diamminedichloroplatinum (II)-procaine pharmacokinetic interaction in mice bearing P388 leukemia. 823 29

Two ruthenium(II) complexes, characterised by the presence of dimethylsulphoxide ligands, were investigated in comparison to cisplatin on mouse P388 leukaemia and on a subline made resistant to cisplatin (P388/DDP). Both cis- and trans-RuCl2(DMSO)4 significantly prolonged the survival time of leukaemic mice, independently of the tumour line used. Unlike cisplatin, the prolongation of life-span of tumour-bearing hosts caused by ruthenium complexes was not supported by a parallel inhibition of the number of tumour cells in the treated hosts, as evidenced by tumour cell count in the peritoneal cavity and by vivo-vivo bioassays of blood samples and of whole brains. Thus, cis- and trans-RuCl2(DMSO)4 appear capable of preventing leukaemic spread into the central nervous system also when the number of tumour cells in the peritoneal cavity and in the blood stream is as high as in untreated controls. When the drug-induced DNA damage was investigated by modifying double stranded DNA and identifying the lesions able to inhibit DNA synthesis in vitro, trans-RuCl2(DMSO)4 and, to a lesser extent, cis-RuCl2(DMSO)4 formed blocking lesions at the same sites of cisplatin; nevertheless, the mechanism of antitumour activity of ruthenium complexes appears to be different from that of cisplatin for the absence of any relationship between cytotoxicity and prevention of leukaemic dissemination into the central nervous system. These data indicate that the activity of cis- and trans-RuCl2(DMSO)4 on the P388 leukaemia is characterised by the lack of cross-resistance with cisplatin and by the alteration of the metastasising behaviour of leukaemic cells which lose their natural capacity to invade the central nervous system.
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PMID:Anti-leukaemic action of RuCl2 (DMSO)4 isomers and prevention of brain involvement on P388 leukaemia and on P388/DDP subline. 826 Feb 45

Concurrent administration of para-aminobenzoic acid (PABA) reduced the toxicity of cis-diamminedichloroplatinum(II) (DDP) in a dose-related manner in rats. When administered i.p. simultaneously with 7.5 mg/kg DDP, PABA (100 mg/kg) significantly reduced plasma urea nitrogen (PUN) and plasma creatinine levels as well as DDP-induced weight loss. Increasing doses of PABA (25, 50 and 100 mg/kg) correlated with progressively better parameters of renal activity and body wt and with lower levels of platinum in plasma and tissues in rats killed 5 days after drug administration. The formation of cisplatin-DNA adducts, the total platinum levels in kidney and testes and the DDP-induced tumor response were investigated in the presence and absence of PABA exposure in mice bearing P388 leukemic cells. Renal and testicular DNA-adducts in mice treated i.p. with 16 mg/kg DDP in normal saline were higher than those observed in mice receiving the same protocol and added PABA. Analysis of tissue platinum content demonstrated significantly lower platinum levels both in kidneys (P < 0.05) and testes (P < 0.01) of mice receiving DDP and PABA in normal saline compared to those receiving only DDP in normal saline. PABA did not affect the in vivo and in vitro antitumor activity of DDP against P388 leukemia, and there was no significant PABA-induced modification in the concentration of platinum both in the tumor cells and in DNA samples isolated from P388 leukemic cells of DDP-treated mice. We conclude that PABA may be a promising compound for reducing DDP-toxic side effects, including nephrotoxicity, without compromising its antitumor activity.
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PMID:Para-aminobenzoic acid suppression of cis-diamminedichloroplatinum(II) nephrotoxicity. 826 32

Among various molecular mechanisms of cell resistance to antitumor agents such as cisplatin, it has recently been suggested that enhanced DNA-repair activity might be involved in the resistant phenotype of cell lines. Mouse leukemia-cisplatin-resistant cell lines L1210/10 (adapted in vitro) and L1210/DDP (adapted in vivo) have been reported to exhibit an increase DNA-repair activity, as determined by host-cell reactivation after transformation with damaged plasmids. In this paper, excision-repair activity was monitored by an in-vitro assay allowing quantification of DNA-repair synthesis in cell extracts from resistant and sensitive parental cells (L1210/10 versus L1210/0 and L1210/DDP versus L1210/S). Experimental conditions for optimal repair-synthesis activity were found to be different from these reported with human cell-line extracts. L1210/S sensitive cell line, grown in vivo by a weekly intraperitoneal graft in mice, displayed a repair activity about fourfold lower than the same cell line maintained in vitro or than L1210/0 cell grown in vitro. The repair activity was found similar in a L1210/10 and L1210/0 cell lines, but it was enhanced in L1210/DDP resistant cell line when compared with its parental line.
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PMID:DNA excision-repair synthesis is enhanced in a murine leukemia L1210 cell line resistant to cisplatin. 843 4

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