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 previously developed a mathematical model to describe the emergence and dynamic growth of a drug-resistant subpopulation in a tumor. In the present study, our objective was to test the model's ability to mimic two strategies for reversal of drug resistance. We present data from one in vitro cell proliferation assay with drug-resistant LS174T human colon carcinoma variants and one in vivo assay of survival after treatment of female (C57BL/6 x DBA/2)F1 mice inoculated with doxorubicin-resistant P388/ADR leukemia cells. The in vitro assay examined the effects of inhibiting the biosynthesis of glutathione in cells resistant to alkylating agents or cisplatin. The in vivo assay compared the effects on cell survival of low-level continuous infusion versus high-intensity bolus dosing, with or without coadministration of the drug efflux pump blocker verapamil. Results in vitro and in vivo were comparable for qualitative accuracy and predictability to results with the model. Both the in vitro study and the model showed that, for resistant cells with high levels of glutathione, short-term cell survival was dose dependent and that even high doses of drug did not eliminate all of these cells. Addition of an inhibitor of glutathione biosynthesis did, however, augment elimination of the resistant cells. Resistant cells with low levels of glutathione could be eliminated with high drug doses or coadministration of drug and a glutathione synthesis inhibitor. In vivo, coadministration of doxorubicin with verapamil increased animal survival when either continuous infusion or bolus dosing regimens were used. The effectiveness of the blocker is crucial; when a partially (50%) effective blocker is used, continuous infusion achieves better elimination of resistant cells, but a completely (100%) effective blocker is efficacious in both dosing scenarios. Careful interpretation of these findings is necessary because the pharmacokinetics of drug in the small populations of cells in the model are not easily extrapolated to those in large tumors. This model may be useful in determining resistance mechanisms, their levels of effectiveness, and concentrations of compounds required at target sites to overcome them.
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PMID:Drug resistance-reversal strategies: comparison of experimental data with model predictions. 196 Jul 54

Human and mouse bone marrow cells were cultured for 1 h in the presence of either the antileukaemia drug amsacrine or its 4-methyl,5-[N-methyl]carboxamide disubstituted analogue CI-921, before being plated in methylcellulose medium to determine the survival of granulocyte-macrophage colony forming units (CFU-GM). The drug concentration required for 50% reduction in survival was approx. 0.4 microM for both drugs and was similar for both human and mouse cells. A comparison of the two drugs was then made, at an added drug concentration of 0.5 microM, using cultured mouse L1210 and P388 leukaemia, Lewis lung carcinoma cell lines LLAK and LLTC, human Jurkat leukaemia, human histiocytic lymphoma U937 and human colon carcinoma SW620. The sensitivity of the mouse lines for amsacrine was in the order L1210 greater than P388 greater than LLAK greater than LLTC, similar to the in vivo sensitivity. The selectivity of CI-921 for L1210 versus bone marrow, and for LLAK versus L1210 or P388, was greater than that of amsacrine, again in keeping with its in vivo properties. The sensitivity of the human Jurkat and U937 lines for amsacrine was intermediate between that of L1210 and P388, while SW620 was resistant. The selectivity of CI-921 for Jurkat and U937 versus bone marrow was greater than that of amsacrine, suggesting that CI-921 could have additional advantages over amsacrine in the treatment of some tumours.
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PMID:Comparison of the cytotoxicity of amsacrine and its analogue CI-921 against cultured human and mouse bone marrow tumour cells. 213 78

1,7-Heptanediol disulfamate (hepsulfam, NSC 329680) is a new anti-cancer agent which is currently undergoing phase I clinical trials. The mechanism of action of this compound is not clear at this time. We have recently shown that hepsulfam was more toxic to L1210 leukemia cells than was busulfan. Consistent with the difference in toxicity, we found that hepsulfam induced DNA interstrand cross-links in L1210 mouse leukemia cells, whereas busulfan did not. In the present study, we have found that hepsulfam was more cytotoxic to two human leukemia cell lines (HL-60 and K562) and to two human colon carcinoma cell lines (BE and HT-29) than was busulfan. As in L1210 cells, hepsulfam induced a higher level of DNA interstrand cross-links than busulfan. Both compounds induced DNA-protein cross-links. Hepsulfam was also more cytotoxic to the human leukemia cell lines when the concentrations were reduced 10-fold and the duration of drug exposure was increased to 12-h This more accurately reflects the drug exposures that human leukemia cells may encounter in vivo. Under these 12-h drug exposures, hepsulfam was still able to form DNA interstrand and DNA-protein cross-links, whereas busulfan was only able to form DNA-protein cross-links. These results show that busulfan and hepsulfam react with DNA differently and that hepsulfam is a more potent cytotoxic agent.
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PMID:Mechanisms of toxicity of hepsulfam in human tumor cell lines. 225 4

The colony formation in agar of human tumor xenografts, of murine tumors and of human bone marrow was used as a test system to determine the in vitro activity of the two novel cytostatic agents, mitozolamide and sparsomycin. Mitozolomide was additionally studied in vivo in nine human tumor xenografts. The comparison of in vitro/in vivo activity allows an assessment of the relevant in vitro dose based on in vivo pharmacological behavior of a compound. Both compounds showed clear dose/response effects in vitro. A dose of 3 micrograms/ml mitozolomide, given by continuous exposure, was active (colony number of test less than 30% of the control group) in 12/42 (29%) human tumor xenografts as well as in the four murine tumors, P388, L1210, B16 melanoma and colon carcinoma 38, whereas the two human bone marrows showed no significant suppression of the ability to form colonies in culture. The comparison of in vitro with in vivo activity suggests that the in vitro dose of 3 micrograms/ml corresponds best to the activity observed in animal experiments. The highest activity was observed in small-cell cancer of the lung (4/5), followed by melanomas (2/7) and non-small-cell cancer of the lung (2/9). Furthermore, activity was found in a cancer of the large bowel, stomach, breast and in one sarcoma. In the treatment of nine human tumor xenografts growing subcutaneously in nude mice, mitozolomide effected a complete or partial remission in 6 out of 9 tumors. In comparison to standard drugs mitozolomide is one of the most effective compounds in these tumors. These data indicate that mitozolomide possesses potent broad-spectrum activity in human tumor xenografts. Sparsomycin (0.1 micrograms/ml, continuous exposure) was active in 11/46 (24%) human tumor xenografts and in 4/5 of the murine tumors, whereas the colony-forming capacity of four human bone-marrows showed no inhibition, suggesting that this dose level may be the relevant in vitro dose. However, the high in vitro activity in murine tumors is incompatible with the in vivo activity. In mice the only responsive tumor was leukemia P388, whereas the L1210, B16 melanoma and colon carcinoma 38 were resistant. At the dose level of 0.03 microgram/ml only 3/30 (10%) of the human tumor xenografts were sensitive. In an earlier clinical phase I study the dose-limiting adverse effect was eye toxicity and not bone-marrow suppression.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:In vitro and in vivo anticancer activity of mitozolomide and sparsomycin in human tumor xenografts, murine tumors and human bone marrow. 225 73

We report here a patient who was diagnosed as having acute lymphoblastic leukemia (ALL-L2) and colon carcinoma simultaneously and a successful operation for the colon carcinoma was performed preceded to the treatment of ALL. The patient was a 43-year-old male who presented with acute abdominal symptoms and was diagnosed as ALL by the hematological examination and as colon carcinoma (well differentiated adenocarcinoma, Borrmann II) by colon fiberscope. The patient was underwent sigmoidcolectomy for colon carcinoma and was received antibiotics as well as recombinant human granulocyte colony-stimulating factor (rhG-CSF), Approximately two weeks later, the patient received AdVP (Adriamycin, vincristine, and prednisolone) for ALL and achieved a complete remission. It might be possible for some leukemia patients manifesting acute abdominal symptoms to perform surgical approaches, since the prognosis of leukemia patients improved and supportive therapies, including an application of rh-CSF, have developed.
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PMID:[Successful induction chemotherapy after colectomy in a case of acute lymphoblastic leukemia associated with obstructive ileus caused by sigmoid colon carcinoma]. 232 88

BMY-28175 is a novel antitumor antibiotic produced in fermentation by Actinomadura verrucosospora. The cytotoxic effects of BMY-28175 were determined using murine and human tumor cell lines in vitro. Following 72 hour exposure, the drug had IC50 values 1.5 to 13.5 ng/ml in a microtiter assay. BMY-28175 was evaluated for antitumor activity against several experimental murine and human tumor models. The drug administered ip was active against ip implanted P388 leukemia, L1210 leukemia, B16 melanoma, M109 lung carcinoma, C26 colon carcinoma, M5076 sarcoma and Lewis lung carcinoma. In addition, BMY-28175 administered iv was active against iv implanted P388 and L1210 leukemias. BMY-28175 was active against sc implanted B16 melanoma (increased lifespan and/or inhibition of primary tumor growth) in about 60% of the tests. The growth of sc implanted M109 was inhibited by BMY-28175 in a single experiment. BMY-28175 was also active against the MX-1 human mammary xenograft implanted in the subrenal capsule of nude mice. The optimal dose for BMY-28175 in these various studies ranged from 0.16 micrograms/kg per injection with consecutive daily (qd1-9) administration, to 51.2 micrograms/kg with single dose administration. The results of these studies indicate that BMY-28175 is one of the most potent antitumor agents yet observed, with a broad spectrum of activity against tumors of murine and human origin and activity against tumors located distal to the site of drug administration.
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PMID:Experimental antitumor activity of BMY-28175 a new fermentation derived antitumor agent. 234 72

A novel antitumor antibiotic, 2a,3,4,5,6,6a,7,11b-octahydro-11-methoxy-12-methyl-3,6-imino-1H-2-oxa-11 c- azanaphth(1,2,3-cd)azulene-5-carboxylic acid monocitrate (quinocarmycin citrate; KW2152) was selected for investigation in a number of experimental tumor systems because of its efficacy against P388 leukemia. In the initial studies with P388 leukemia (i.p.-i.p.), KW2152 gave an increase in life span of greater than 80%. The activity was schedule dependent and daily administration was the most effective. KW2152 caused marginal activity against L1210 leukemia, B16 melanoma, and M5076 sarcoma. The effect on cultured cells suggested that KW2152 was not cross-resistant to Adriamycin (ADM) but was cross-resistant to mitomycin C (MMC); however, KW2152 caused prolongation of life span against mice bearing P388/ADM or P388/MMC. In tests against human tumors xenografted s.c. in nude mice, KW2152 significantly inhibited the growth of MX-1 mammary carcinoma with all tumors cured at i.v. doses of 4.4 mg/kg/day and p.o. doses of 26.2 mg/kg/day given daily for 7 days. KW2152 also inhibited distinct human gastric carcinomas, St-4 and St-15 tumors, and colon carcinoma Co-3 by daily administration for 7 days. Against St-4, KW2152 gave a treated versus control percentage of 27, compared to 52 for cis-diamminedichloroplatinum. Against Co-3, KW2152 was at least as effective as MMC, ADM, cis-diamminedichloroplatinum, and bleomycin, giving a treated versus control percentage of 18 at a dose of 8.6 mg/kg/day given daily for 7 days. KW2152 showed growth inhibitory activity against cultured murine tumors and human cells. The order of in vitro efficacy of KW2152 against murine tumors, P388 leukemia greater than L1210 leukemia, B16 melanoma, correlated with the order of the sensitivity on the i.p.-i.p. systems of these tumors. The 50% inhibitory concentrations against P388 leukemia cells were 5.3 X 10(-6) and 1.1 X 10(-7) M after 1 and 72 h exposure, respectively. KW2152 caused significant inhibition of RNA synthesis after a short time exposure. In P388 leukemia cells exposed for 1 h with KW2152, the 50% inhibitory concentration for RNA synthesis was 10(-5) M, 30-fold less than that for DNA synthesis. White blood cell depression or platelet depression was not significant after administration of the i.v. 10% lethal dose given daily for 7 days. Because of its good activity against human mammary tumor MX-1 and some effectiveness against other gastric and colon carcinomas and its water solubility, a novel antitumor antibiotic, KW2152, is being developed as a Phase I anticancer agent.
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PMID:Antitumor activity of a novel antitumor antibiotic, quinocarmycin citrate (KW2152). 243 18

An epithelial cell surface antigen is described which is defined by monoclonal antibody HEA125 (IgG1). The antibody was raised against the colon carcinoma cell line HT-29. Under reducing conditions HEA125 immunoprecipitates a surface glycoprotein of Mr 34,000 which was designated Egp34. The antigen does not contain disulfide-linked subunits. A slightly different migration behavior under non-reducing conditions (Mr 39,000) may be due to intrachain disulfide bonds. After enzymatic cleavage of N-linked carbohydrate residues the apparent molecular weight of the antigen was 29,000. Egp34 is a major cell surface component of HT-29 cells (10(6) molecules per cell). No antigen could be detected in the sera of colorectal cancer patients. A panel of malignant cell lines and normal cells was studied for surface expression of the antigen. 17/17 carcinoma lines of 6 different origins expressed the antigen, whereas 16/16 melanoma, neuroblastoma, sarcoma and lymphoma/leukaemia were unreactive as it was the case for normal fibroblasts and blood cells. Immunoperoxidase staining of frozen tissue sections with HEA125 demonstrated the presence of Egp34 in almost all normal epithelia and tumours derived therefrom. No reactivity with non-epithelial tissues was observed. Undifferentiated carcinomas of various origins homogeneously expressed Egp34. Therefore, HEA125 may become a valuable tool for the immunohistochemical diagnosis of carcinoma.
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PMID:Epithelium-specific surface glycoprotein of Mr 34,000 is a widely distributed human carcinoma marker. 244 34

The effects of the differentiation-inducing agents N6, O2'-dibutyryl cyclic AMP, beta-all-trans retinoic acid, dimethylsulfoxide and butyrate on the levels of galactoside-binding proteins (lectins) in cultured human and murine tumor cells were examined by immunoblotting. Differentiation was associated with decreased levels of a 34-kDa lectin in the K-1735P and B16-F1 melanoma cells and decreased levels of a 14.5-kDa lectin in S20 neuroblastoma, MDA-MB 175 breast carcinoma, HL-60 and THP-1 leukemia cells. The level of a 14.5-kDa lectin increased during differentiation of F-9 embryonal and KM12P colon carcinoma cells. These results indicate that tumor cell differentiation along specific pathways is accompanied by distinct modulation of lectin expression. These changes may recapitulate the normal developmental regulation of lectin expression.
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PMID:Modulation of galactoside-binding lectins in tumor cells by differentiation-inducing agents. 255 43

Base propenals arise from DNA by a Fe(II)-bleomycin-mediated reaction which leads to strand scission. These compounds undergo addition-elimination reactions with thiols and other nucleophilic groups under physiological conditions and form an addition product with glutathione. Thymine- and adenine-N1-propenals inhibit DNA synthesis in HeLa cells; both compounds are cytotoxic [50% inhibiting concentration (IC50) = 1 to 2 microM]. A structurally related nucleoside, thymidine-N3-propenal, designed as a metabolic pathway inhibitor, inhibits growth of HeLa, L1210 leukemia, Lewis lung carcinoma, B16 melanoma, and DLD-1 human colon carcinoma cells in culture (IC50 = 1 to 6 microM). A single injection of this compound, administered on the first day following transplant of L1210 leukemia cells, increased the mean survival time of mice by 50% (T/C = 154). Thymidine-N3-propenal selectively blocks DNA synthesis in HeLa cells and inhibits thymidine kinase (Ki = 5.1 microM) and DNA polymerase-alpha. We suggest that base propenals, rather than damaged DNA, account for some of the cytotoxic effects of bleomycin and that nucleoside propenals represent a novel class of site-directed inhibitors.
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PMID:Origin and cytotoxic properties of base propenals derived from DNA. 257 72

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