UMLS:C0023418 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

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

Since 1978, over 50 clinically useful antitumor drugs or new candidate antitumor agents have been evaluated in vivo against cisplatin-resistant P388 leukemia (P388/DDPt) in our laboratories. Analysis of this data base has yielded insights into the cross-resistance, collateral sensitivity, and mechanisms of resistance of P388/DDPt. P388/DDPt was cross-resistant or marginally cross-resistant to eight agents [carmethizole.HCl, rhizoxin, dibromodulcitol, spirohydantoin mustard, hepsulfam, arabinosyl-5-azacytosine (ara-AC), tiazofurin, and deoxyspergualin]. Of these eight agents, the latter six have entered various phases of clinical trials. For these trials, it may be important to exclude or to monitor with extra care patients who have previously been treated with cisplatin. P388/DDPt was collaterally sensitive to six agents [fludarabine phosphate (2-F-ara-AMP), amsacrine (AMSA), mitoxantrone, etoposide (VP-16), batracylin, and flavone acetic acid] and, possibly, to two others (merbarone and echinomycin). These observations of collateral sensitivity suggest that a combination of cisplatin plus any one of these drugs might exhibit therapeutic synergism. Therapeutic synergism has been observed in animal models for combinations of cisplatin plus VP-16, AMSA, or mitoxantrone. The observation of collateral sensitivity for P388/DDPt to four agents (AMSA, mitoxantrone, merbarone, and VP-16) that have been reported to interact with DNA topoisomerase II suggests the possible involvement of the latter in cisplatin resistance. Both the increased sensitivity of P388/DDPt to these agents and a portion of its resistance to cisplatin could be the result of an increase in DNA topoisomerase II activity.
...
PMID:Antitumor drug cross-resistance in vivo in a cisplatin-resistant murine P388 leukemia. 184 65

Fourteen patients (M/F, 6/8; age, 48/23-64 yrs) with relapsing or primary resistant intermediate-high grade non-Hodgkin lymphomas were treated with ARA-C (2 g/m2 x 4 on days 1 and 2), DDP (100 mg/m2 96 hr infusion) and VP-16 (150 mg/m2 on days 1, 2 and 3). GM-CSF or placebo was administered from the 5th day until neutrophil count reached greater than or equal to 1000/microliters on 2 consecutive days. Three PR and 6 CR were documented. Two CR pts are still in CR at 19 and 23.5 months. With the exception of one case of cerebral haemorrhage, life-threatening liver toxicity, exfoliative colitis, capillary leak syndrome and anaphylactoid reaction, the protocol regimen provoked only modest haematological and extra-haematological toxicities.
Leukemia 1991
PMID:GM-CSF: clinical trials in non-Hodgkin's lymphoma patients with chemotherapy induced leucopenia. 189 Aug 60

The use of molecular biological methodologies has provided a greater understanding of the cytotoxic effects of cisplatin and the underlying mechanisms of tumour cell resistance. Resistance to cisplatin is often multifocal with plasma membrane, cytosolic and nuclear components. Cisplatin-DNA adducts appear to be recognised by specific damage recognition proteins. Proteins associated with the transport of platinum through plasma membranes and genes associated with cisplatin resistance appear to be close to being elucidated. Current Phase I and Phase II clinical trials with platinum-containing complexes largely focus on the 1,2 diaminocyclohexane (DACH) carrier ligand, the dicarboxylatocyclobutane leaving group and complexes which circumvent cisplatin resistance in murine leukaemia models. At present, the trials are at too early a stage to allow comment on their clinical utility and, consequently, the relevance of the murine leukaemia-based preclinical observations. On the horizon, orally active platinum (IV) ammine/amine dicarboxylate dichloride coordination complexes with preclinical toxicological profiles similar to carboplatin should enter clinical trial in the next year.
...
PMID:Platinum and other metal coordination compounds in cancer chemotherapy. A commentary on the sixth international symposium: San Diego, California, 23-26th January 1991. 191 Dec 29

Resistance to cisplatin in several murine leukemia L1210 cell lines is due to enhanced DNA repair. Other platinum complexes, particularly those containing 1,2-diaminocyclohexane (DACH) are of interest as they effectively kill both sensitive (L1210/0) and cisplatin-resistant (L1210/DDP) cell lines. An L1210/DACH cell line has been developed that is preferentially resistant to DACH-Pt complexes. In the current experiments, we investigated the role that DNA repair has in resistance to DACH-Pt compounds. The DACH ligand exists in 3 isomeric forms which exhibit markedly different activities in the various resistant cell lines. Generally, R,R-DACH-Pt was the most effective isomer. DNA repair was assayed by host-cell reactivation of platinated pRSVcat. DNA damage induced by all the isomeric DACH-Pt-SO4 complexes markedly reduced CAT expression in sensitive L1210/0 cells. One adduct per transcribed strand of the cat gene inhibited CAT expression demonstrating that the sensitive cells exhibited no detectable DNA repair. All the resistant cell lines reactivated the plasmid DNA whether damaged with cisplatin or any of the 3 DACH-Pt isomers. Therefore, resistance to both cisplatin and DACH-Pt appears to be mediated by enhanced DNA repair, but the level of reactivation of the transfected plasmid did not correlate with the toxicity of each analogue. These results suggest that some additional event(s) is responsible for the substrate specificity of repair of genomic DNA. These resistant cell lines also exhibited resistance to UV irradiation but this was much less than, and did not correlate with the degree of resistance to either cisplatin or DACH-Pt. However, there was a good correlation between resistance to UV irradiation and reactivation of UV-damaged plasmid DNA. This enhanced reactivation suggests that enhanced repair may be the sole reason for the resistance to UV irradiation.
...
PMID:The role of DNA repair in resistance of L1210 cells to isomeric 1,2-diaminocyclohexaneplatinum complexes and ultraviolet irradiation. 198 76

The DNA thermal stabilizing effect and the antileukemic properties of a Pt-pentamidine complex have been studied. The results indicate that the pentamidine ligands in Pt-pentamidine probably have an interaction with the DNA stronger than that of pentamidine alone because they are bound to the nucleic acid through the cis-PtCl2 residues. However, the cis-PtCl2 residues do not seem to significantly destabilize the helix. Two types of evidences are consistent with this hypothesis: (1) a decrease in the dielectric constant of the medium does not remove the pentamidine ligands from the Pt-pentamidine: DNA complex, and (2) the renaturation of the DNA in Pt-pentamidine:DNA complex is DNA concentration independent. 1H- and 13C-NMR spectroscopic data together with the elemental analysis indicate that the complex is a stoichiometric oligomer of formula [(cis-PtCl2)3(pentamidine)3] [PtCl4]2. This drug exhibits significant antineoplastic activity in BDF1 mice bearing i.p. L1210 leukemia. At a concentration of 50 mg/kg, about 15% of the LD50 for the 1,5 and 9 days schedule, the antitumor activity (T/C = 337%) is considerably superior to that of cis-DDP (T/C = 215%) or carboplatin (T/C = 220%) at doses representing 75% and 50%, respectively, of the LD50 for the same treatment schedule. Moreover, it was found that the nephro-hepatotoxicity of the complex is low.
...
PMID:DNA binding properties and antileukemic (L1210) activity of a Pt-pentamidine complex. 200 76

Cisplatin and teniposide given by intraperitoneal (IP) route exert a synergistic therapeutic effect against ascitic P388 leukemia in mice. As single agents, they display different dose-limiting toxicities and favourable pharmacokinetic characteristics in IP phase I trials. We administered cisplatin (fixed dose: 200 mg/m2) and teniposide (escalating doses) by IP route without dwell-time to investigate the toxicity, pharmacokinetics and clinical activity of this 2-drug combination. Nine patients received a total of 14 courses. Myelosuppression, nausea and vomiting were the most frequent toxicities. Leukopenia was the dose-limiting toxicity. The maximum tolerated dose of teniposide was 100 mg/m2 when administered with a fixed dose of 200 mg/m2 cisplatin. Pharmacokinetic analysis showed that the main parameters of both cisplatin and teniposide in the peritoneum and in the plasma were not modified when the drugs were combined. It appears that a pharmacodynamic interaction exists between cisplatin and teniposide which results in increased hematologic toxicity. Although an objective response has been observed in one patient with refractory ovarian cancer, such association should not be applicable for further clinical development due to marked toxicity and the low dose of teniposide recommended.
...
PMID:Teniposide and cisplatin given by intraperitoneal administration: preclinical and phase I/pharmacokinetic studies. 204 92

Resistance to cisplatin (DDP) and/or iproplatin (CHIP) was induced in vitro in murine L1210 leukemia cells. Double-resistant sublines with combined resistance to both drugs were also developed. Cross resistance investigations with DDP, CHIP, oxoplatinum (OXO), carboplatin (CBDCA) and its quadrivalent derivative OXOCBDCA were performed in these resistant sublines. Lack of cross resistance between DDP and CHIP was found. A higher resistance to CHIP in the double-resistant sublines was observed. A multistep process in the development of resistance to this compound is supposed. The importance of the aminoligand and the role of different pharmacokinetics in the cross resistance are discussed.
...
PMID:Cross resistance studies with L1210 leukemia subline single and double resistant to cisplatin and iproplatin (CHIP). 227 83

The effect of normal saline (NS) on the antitumor activity, toxicity and pharmacokinetic of cisplatin (DDP) was investigated in BDF1 mice bearing P388 leukemia. Tumor-bearing mice received 8 or 16 mg/Kg of DDP dissolved in NS or distilled water (DW) intraperitoneally. Control animals were treated with DW or NS alone. The administration of 8 mg/Kg of DDP+NS produced a significantly better survival (P less than 0.05) compared to that observed in mice receiving DDP+DW. The proportion of long-term survivors was 3.5 times higher in the DDP+NS group (39%) compared to the DDP+DW group (11%). The administration of 16 mg/kg DDP+DW was highly toxic, resulting in early deaths (MST = 5 days) and no long-term survivors. NS protected from DDP toxicity without further improving the survival achieved following the injection of 8 mg/kg DDP+NS. Investigation of platinum pharmacokinetics showed that NS significantly decreases both plasma and tissue concentrations of total platinum, mainly through a decrease in the amount of platinum bound to high molecular weight plasma proteins. HPLC studies indicated that mice receiving 8 mg/kg DDP+NS or DDP+DW fail to show clear differences both in the total ultrafilterable platinum and unchanged DDP in plasma ultrafiltrate. Conversely, mice treated with DDP+NS had higher concentrations of platinum-species in plasma ultrafiltrate than mice receiving DDP+DW. These latter results, together with the observation that NS decreases the amount of platinum bound to plasma proteins, suggest that the effect of NS does not solely depend in vivo on the ability of the chloride ion concentration to stabilize the DDP molecule and suppress the formation of DDP metabolites, but also on its ability to prevent DDP toxicity by reducing the protein binding of DDP aquated products.
...
PMID:Effect of normal saline on cisplatin pharmacokinetics and antitumor activity in mice bearing P388 leukemia. 228 32

A series of new water soluble sugar and non-sugar containing platinum(II) complexes was synthesized and evaluated for effects of the sugar moiety on water solubility, anti-tumor activity, and acute leukopenia. When tested in vivo against the murine P388 and L1210 leukemias at LD10/maximally effective doses, the compound cis-[(gluconylamino)malonato-O,O'](1R,2R-cyclohexanediami ne-N,N')platinum (II), R,RG-AMP produced comparable or superior anti-tumor activity to cisplatin, carboplatin, and tetraplatin. Efficacy was also demonstrated for the L1210/DDP (cisplatin-resistant) leukemia. Further, R,R-G-AMP is non-nephrotoxic and produces less leukopenia than cisplatin, carboplatin, and tetraplatin.
...
PMID:Murine anti-tumor activity of new water soluble platinum(II) complexes with reduced toxicity. 229 75

Our studies on the mechanism of resistance of the murine leukemia L1210-PDD line to cis-dichlorodiammineplatinum(II) (cis-DDP) have not shown why it is 10-fold more resistant to the drug than the L1210 line. For this reason we investigated metallothionein-like proteins ('MTs') in these cells. Soluble protein extracts from cultures treated for 24 h with cis-DDP, zinc sulphate or saline were anaerobically eluted from columns of chemically reduced Sephadex G-75, and the profiles of zinc, copper and platinum were determined along with those for incorporated radioactive cyst(e)ine and tyrosine. Both saline-treated cell lines contained similar levels of 'MTs', which were induced by exposure to a minimally toxic level of zinc (100 microM). Zinc induction of 'MTs' was nearly 4-fold greater in L1210 than in L1210-PDD cells. The levels of mRNA for metallothionein I (MTI) and II (MTII) in uninduced cells were measured by dot-blotting with a cDNA probe. The L1210-PDD cells contained 80% of the MTI and 41% of the MTII compared with L1210 cells, confirming the similar levels in uninduced cells. L1210-PDD cells were 2-fold more sensitive than L1210 cells to cadmium and equally sensitive to zinc. Thus, the resistance of L1210-PDD cells to cis-DDP was not associated with cross-resistance to group IIb metals, whereas their sensitivity to cadmium did reflect the relative inability of the cells to synthesize 'MTs'. The L1210 cells produced 'MTs' when treated with 0.5 and 5.0 microM cis-DDP, but the L1210-PDD cells did not when treated with 5.0-40 microM cis-DDP. Small amounts of platinum (less than 21% of the total eluted) were bound to 'MTs' in both cell lines, but platinum provided a minor portion of the 'MT'-bound metals, with zinc and copper contributing the bulk. The basis for the resistance of L1210-PDD cell to cis-DDP is neither an increased level of 'MTs' in the resistant cells nor an enhanced ability to increase the synthesis of 'MTs' after drug exposure.
...
PMID:Metallothionein-like proteins and cell resistance to cis-dichlorodiammineplatinum(II) in L1210 cells. 231 Nov 68

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>