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)

Water-miscible platinum(II) complexes with 1,2-diaminocyclohexane as the carrier ligand and bile acids as the leaving ligands were synthesized and tested for antitumor activity against intraperitoneally implanted leukemia L1210 cells in mice. These complexes were water-miscible after appropriate sonication due to the presence of hydrophilic hydroxyl groups in the molecule, even though the complexes were essentially lipophilic. The complexes had high antitumor activity, but their optimal dose levels differed, and the administration route and form affected the antitumor activity. More lipophilic complexes showed higher activity when administered with Lipiodol than in water suspension, while the hydrophilic complexes showed significant activity when administered in water suspension. Intravenous administration of DACHP(cheno)2 in water suspension resulted in potent antitumor activity, while other complexes showed moderate activity via this route.
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PMID:New antitumor platinum(II) complexes with both lipophilicity and water miscibility. 216 71

Datelliptium acetate (NSC 311152) is a water soluble analogue of ellipticine. It is a solid tumor selective compound. In vitro, in a disk diffusion, soft agar colony formation assay (25 micrograms/disk), the compound demonstrated solid tumor selectivity (compared to leukemia L1210) against colon adenocarcinoma 38 and pancreas ductal carcinoma 03. Upon intravenous administration, NSC 311152 was effective in vivo against a variety of murine solid tumors. Responses at maximum tolerated doses were: colon #07/A (T/C = 33%); 0.60 log cell kill), #38 [T/C = 0%; 4.2 log cell kill), colon #51/A (T/C = 2%; 1.2 log cell kill), undifferentiated colon #26/A (T/C = 38%; 0.4 log kill), mammary #16/C (T/C = 10%; 1.7 log cell kill), and pancreatic ductal carcinoma #03 (T/C = 0%; 80% cures through day 38). It was ineffective against pancreas #02 (T/C = 45%), mammary 17/A (T/C = 53%), and 17/A/ADR (T/C = 52%). At efficacious doses acute neurotoxicity (i.e. stupor and lethargy) and weight loss were noted (with rapid recovery from both toxicities). There were no delayed toxicities. The agent was slightly necrotizing and produced pain on SC injections. In lieu of its preclinical efficacy and toxicity profiles, we recommend further clinical investigation of this agent.
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PMID:Activity of datelliptium acetate (NSC 311152; SR 95156A) against solid tumors of mice. 217 44

We evaluated the entrapment of 21 different water-insoluble aglycones or anthracycline antibiotics in multilamellar liposomes composed of dimyristoyl phosphatidyl choline and dimyristoyl phosphatidyl glycerol at a 7:3 molar ratio. The drug:lipid weight ratio was 1:15 to 1:50. The different analogues tested were modified at position 4 in the aglycone portion (4-demethoxy) and/or positions 2' (halo), 3' (hydroxy, acetoxy), or 4' (epi, acetoxy) in the sugar portion. The entrapment efficiency was assessed by measuring the amount of free drug remaining in the supernatant after centrifugation of the liposomes and by direct examination of the pellets by fluorescent microscopy. Optimal entrapment (greater than 98%) was observed with only four compounds: 4-demethoxyadriamycinone; 2'-iododaunorubicin; 4-demethoxydaunorubicin; and 2'-iodo-3'-hydroxy-4'-epi-4-demethoxydoxorubicin (Compound 22). All other compounds showed significant drug precipitation outside the multilamellar vesicles when observed by fluorescent microscopy. Compound 22, entrapped in liposomes, was evaluated in vivo against i.p. L-1210 leukemia by the i.p. route, and liver metastases of M5076 reticulosarcoma by the i.v. route. In both models, liposome-entrapped Compound 22 was more active than doxorubicin at the optimal dose [median survival (given in percentage) of treated to control animals was for L-1210, greater than 600 versus 212; for M5076, 200 versus 133]. 4-Demethoxy and 2'-iodo are structural modifications that markedly enhance the affinity of anthracycline antibiotics for lipid bilayers without compromising biological activity. These findings will serve as a guideline to obtain liposome-anthracycline preparations, with optimal formulation characteristics, enhanced tumor-targeting properties, and non-cross-resistance with doxorubicin.
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PMID:Anthracycline antibiotics with high liposome entrapment: structural features and biological activity. 219 51

Ambazone (1,4-benzoquinone guanylhydrazone thiosemicarbazone) was found to be active against various transplantable tumors in mice as well as rats. When administered orally for 4-9 days, the effective therapeutic dose ranged between 60 and 125 mg/kg. The antineoplastic effect of ambazone appeared to be mediated, at least in part, by the immune system. In order to characterize the drug, biophysical and biophysicochemical studies were carried out using thin-layer chromatography, absorption spectroscopy and polarographic measurements. The distribution of ambazone in an n-octanol/water system indicated low hydrophobicity, thereby excluding the possibility of a preferential contribution from hydrophobic forces to the mode of action of ambazone. Ambazone undergoes three protonation reactions with pK values at 10.69 (equilibrium between the negatively charged and neutral forms), 7.39 (equilibrium between the neutral and singly positively charged form) and 6.22 (equilibrium between the singly and doubly positively charge form). Interaction of the drug with model membrane system was monitored by spectrophotometric and fluorescence measurements. Using the fluorescence label 1-anilino-8-naphthalenesulfonic acid (ANS) as a probe pointed to the interaction of ambazone with the inner area of the phospholipid bilayer matrix of liposomes as being nonspecific. Ambazone induces an overall increase in the cellular cAMP content of leukemia cells and macrophages. So far, membrane interaction has provided a molecular basis for both immunological and antineoplastic activities of the drug. By performing DNA melting experiments, it was shown that neutral or singly positively charged ambazone species stabilize the secondary structure of DNA, while the doubly positively charged form binds more strongly and destabilizes the DNA. After oral administration to rats and mice, ambazone was found to be incompletely absorbed from the gastrointestinal tract, to an extent of about 35-50%. Absorbed ambazone binds only weakly to plasma proteins, whereas its binding to red blood cells is relatively strong. The mutagenic potential of ambazone shown in bacterial systems and human lymphocytes corresponds to its relatively weak interaction with DNA. The toxic action of ambazone on the intestine is believed to be due to inhibition by the drug of bacterial DNA, RNA and protein syntheses. It is assumed that the reported affinity of ambazone for different cellular targets, i.e., membranes, nucleic acids and proteins, contributes to the overall antibacterial effect. The weak antiviral activity of ambazone in the Sendai virus/chicken embryo fibroblast system is probably the result of the interaction with Sendai virus NH glycoprotein.
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PMID:Ambazone as a membrane active antitumor drug. 220 45

In three patients with different forms of leukemia, follow-up examinations before, during, and after chemotherapy and bone marrow transplantation were performed by proton chemical shift imaging (1H-CSI). The relative fat and water fractions were computed in representative regions of the marrow in the femur, pelvis, and lumbar spine. On serial examinations the fat fractions increased over time, in agreement with the responses to therapy proven by bone marrow biopsies from the iliac crest. These preliminary results suggest a role for magnetic resonance and CSI in the monitoring of therapy in leukemia and systemic neoplastic diseases.
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PMID:Proton chemical shift imaging of bone marrow for monitoring therapy in leukemia. 222 74

Previous studies have shown that human leukaemic cells and certain tumour tissues have a higher receptor-mediated uptake of low density lipoprotein (LDL) than the corresponding normal cells or tissues. LDL has therefore been proposed as a carrier for anti-cancer agents. In the current study, a water-insoluble mitoclomine derivative (WB 4291) was incorporated into LDL. The WB 4291-LDL complex contained about 1,500 drug molecules per LDL particle and showed receptor-mediated toxicity in vitro as judged from the difference in growth inhibitory effect on normal and mutant (LDL-receptor-negative) cultured Chinese hamster ovary cells. However, cellular drug uptake did not exclusively occur by the receptor pathway since mutant cells were also affected to some extent. The LDL part of the complex had the same plasma clearance and organ distribution as native LDL after i.v. injection in mice and rabbits. Therapeutic effects were observed when Balb-C mice with experimental leukaemia were treated with the complex. After i.p. administration to mice with i.p. leukaemia median survival time was prolonged 2.5-fold and 40% became long time survivors. The effect was weaker (42% increase in life span) after i.v. injections of the complex to mice with i.v. leukaemia.
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PMID:Low density lipoprotein for delivery of a water-insoluble alkylating agent to malignant cells. In vitro and in vivo studies of a drug-lipoprotein complex. 224 64

Volume selective magnetic resonance (MR) proton spectroscopy was used to investigate the haemopoietic (iliac bone) and fatty bone marrow (tibia) in patients with leukemia and polycythaemia vera. Selective measurements of the relaxation times T1 and T2 for the "water" and "fat" resonances in the bone marrow spectra were performed. Nine patients with acute leukemia and three patients with chronic leukemia were examined at diagnosis. Three patients with acute leukemia in remission were also examined. Five of the leukemic patients had follow-up examinations performed in relation to chemotherapeutic treatment. Nine patients with polycythaemia vera and 21 normal control subjects were examined with identical methods for comparison. All patients had bone marrow biopsies performed prior to every MR examination. Significant differences could be detected in the spectral patterns from iliac bone marrow in patients with leukemia at diagnosis compared to the healthy normal controls. The "relative water content" was increased in the iliac bone marrow spectra of the leukemic patients compared to the normal subjects, which indicates an increase in the amount of haemopoietic tissue and a corresponding decrease in marrow fat content. The T1 relaxation times of the "water" resonance in the spectra from the iliac bone marrow of the leukemic patients were significantly prolonged at diagnosis, compared to the normal controls and the patients with polycythaemia vera. After chemotherapeutic induction of remission, the spectra from the iliac bone marrow in the patients with leukemia resembled normal spectra. Four leukemic patients had abnormal spectra from the tibial bone marrow and one patient showed early changes in tibial marrow during chemotherapeutic treatment, before any major changes could be detected in the iliac bone marrow.
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PMID:Localized in vivo proton spectroscopy of the bone marrow in patients with leukemia. 226 5

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.
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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.
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PMID:Murine anti-tumor activity of new water soluble platinum(II) complexes with reduced toxicity. 229 75

The cytotoxic activities of several natural and semisynthetic anthracyclines against L1210 leukemia and two human colon tumor cells (Colon 4, HT 29) in vitro were examined after short (1 h) and long (7 days) incubation times and correlated with the water/octanol partition coefficients and the DNA-binding affinity of the compounds. Analysis of equation in which cytotoxicity against L1210 (1-h incubation) was parabolically related to the partition coefficient revealed an almost exclusive correlation (r = 0.80) between the cytotoxicity and the parameters, and this correlation was only slightly improved by addition of DNA-binding affinity (r = 0.85). On the other hand, cytotoxic activities displayed after continuous incubation were partially related to both partition coefficients (parabolic dependence) and DNA-binding affinities (linear dependence). In this case the correlation between the activity and partition coefficient (r = 0.67) was significantly improved by addition of DNA-binding affinity (r = 0.90). Similar results were also obtained for human colon tumor cells although the corresponding correlation coefficients were generally of lower value, indicating that cytotoxic activity of anthracyclines against these primary resistant cells may be influenced by additional factors not yet determined.
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PMID:Structure-activity relationship of anthracyclines in vitro. 229 17

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