Cancer research
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It has been shown previously (Porter et al., Cancer Res., 45: 2050-2057, 1985) that the N1,N8-bis(ethyl) derivative of spermidine has significant antiproliferative activity which appears to derive from its regulatory effects on the polyamine biosynthetic pathway, particularly on ornithine decarboxylase activity. In the present study, N1,N4-bis(ethyl)putrescine (BEP) and N1,N12-bis(ethyl)spermine (BESm) were compared with N1,N8-bis(ethyl)spermidine (BES) in their ability to inhibit cell growth and regulate polyamine biosynthesis. With cultured L1210 murine leukemia cells, the IC50 values at 48 h were approximately 2 mM for BEP, 30 microM for BES, and 1 microM for BESm making the latter the most effective polyamine inhibitor or analogue thus far identified. ⋯ Thus, the effects of the analogues on these enzymes in treated cells are presumed to be mainly mediated by regulatory mechanisms. In this regard, BESm was superior to BES since both ornithine and AdoMet decarboxylase activities were suppressed. Given its unique activities, BESm would seem to have potential as both an antiproliferative agent and also as an experimental probe for studying regulation of the polyamine pathway, particularly AdoMet decarboxylase.
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Alkylating agent-sensitive and -resistant L1210 leukemia cell lines were used to determine the tumor response to dose levels of drugs that exceeded conventional doses up to a factor of 10. Since those dose levels were lethal to the host mice, tumor response was based on the results of in vivo bioassays of spleen and/or tumor from drug-treated and control mice. When mice bearing about 10(8) drug-sensitive leukemic cells were treated with a single, conventional (approximately 10% lethal) dose of cis-diamminedichloroplatinum, L-phenylalanine mustard (melphalan), or 1,3-bis(2-chloroethyl)-1-nitrosourea, 10(1) to 10(4) tumor cells were recovered by bioassay. ⋯ Bioassay results indicated a direct correlation between dose intensity and tumor cell kill, the response being linear. Similarly, when mice with L1210/BCNU were treated with high doses of N-(2-chloroethyl)-N''-(2,6-dioxo-3-piperidinyl)-N-nitrosourea or 1,1',1''-phosphinothioylidynetrisaziridine (thioTEPA) and when mice with L1210/DDPt were treated with cyclophosphamide, an increasing, linear cell kill resulted throughout the high-dose range. Overall, these results indicate that resistance to these alkylating agents can be overcome by dose intensification and that the tumor response is linear in relation to increasing dose level.
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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. ⋯ 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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An immunotoxin composed of an antibody to the human transferrin receptor (454A12) and ricin A chain (RTA) was shown to inhibit the growth of NIH:OVCAR-3 tumors in a nude mouse model of human ovarian cancer. Inhibition of tumor growth by 454A12-RTA was related to the dose administered. ⋯ The administration of 10 micrograms or greater of the immunotoxin 454A12-RTA/rRTA had significant antitumor activity. The injection of 30 micrograms of an irrelevant immunotoxin, MOPC21-RTA, or 30 to 500 micrograms of the 454A12 antibody had no antitumor activity.
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Derivatives of N-hydroxy-N'-aminoguanidine were recently shown to be efficient inhibitors of mammalian ribonucleotide reductase and cancer cell growth. We investigated the effects of the 1-isoquinolylmethylene and the 2-quinolylmethylene derivatives of N-hydroxy-N'-aminoguanidine on intracellular targets, cell viability, and cell cycle of L1210 mouse leukemia cells. A 2-h exposure of L1210 cells to either drug in the low micromolar concentration range led to inhibition of intracellular ribonucleotide reductase activity and DNA synthesis. ⋯ As shown by flow cytometry, the N-hydroxy-N'-aminoguanidine isoquinoline derivative at 0.5-10 microM led to an elevation of G0/G1 cells and a decrease of G2/M and S cells. At 10 microM of the drug this shift remained unchanged over 48 h. L1210 cells treated with 0.5, 1, and 2 microM of the drug overcame the block after 4 to 12 h of exposure and progressed through S- and G2/M-phase in a synchronized manner.