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Observations of cells in culture have demonstrated that, for many antitumor agents, topoisomerase II-mediated DNA damage relates to cytotoxicity. However, there is no evidence in tumor-bearing animals to suggest that such agents induce topoisomerase II-mediated damage of DNA in solid tumors or that such damage reflects inhibition of tumor growth. To address this question, a mouse fibroblast cell line neoplastically transformed by an episomal element containing the v-Ha-ras and bovine papillomavirus genes was utilized to measure topoisomerase II-induced DNA damage and growth inhibition of solid tumors derived from this line. Using the topoisomerase II inhibitor amsacrine, the episomal element was found to be a sensitive indicator of topoisomerase II-mediated damage in vivo. The DNA breaks induced by single i.v. injections of amsacrine were protein linked and occurred preferentially in episomal regulatory regions. A strong correlation between suppression of tumor growth and topoisomerase II-mediated damage of the episome was demonstrated.
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PMID:Topoisomerase II-mediated DNA damage of episomes in tumor-bearing mice. 216 34

Studies have suggested that recombinant tumor necrosis factor-alpha (TNF-alpha) may potentiate the killing of murine tumor cells by drugs targeted at DNA topoisomerase II. We have examined the combined cytotoxic effects of the topoisomerase-targeted drug etoposide and TNF in small cell lung cancer (SCLC) and non-small cell lung cancer (NSCLC) cell lines using clonogenic assays and a novel flow cytometry technique relying on differential uptake of fluorescein diacetate (FDA) and propidium iodide (PI) by viable and nonviable cells. Good correlation of IC50 determinations for etoposide were noted between clonogenic assays and the FDA/PI technique for both classic and variant SCLC cell lines. The effects of etoposide on the classic SCLC line H209 were potentiated by TNF with a decrease in the IC50 from 3.3 microM to 1.0 microM as determined by FDA/PI. Tumor necrosis factor alone had little effect on the growth or cloning efficiency of H209 cells. Tumor necrosis factor alone stimulated the growth and cloning of variant SCLC line N417, but the cytotoxicity of etoposide was not potentiated by TNF in N417 cells. Tumor necrosis factor alone inhibited the growth and cloning of the NSCLC line H125 but exerted a marked protective effect against higher concentrations of etoposide. It appears that the interaction of TNF with etoposide varies between cell lines and between subclasses of human lung cancer.
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PMID:Interaction of recombinant human tumor necrosis factor and etoposide in human lung cancer cell lines. 217 61

A camptothecin-resistant subline of P388 leukemia (P388/CPT) was developed by repeated transplantation of P388 cells in mice treated with therapeutic doses of camptothecin. In mice bearing the resistant tumor, a maximally tolerated dose of camptothecin produced no net reduction in tumor cell burden, in contrast to a 5-log cell kill in the parental P388 (P388/S). The IC50 of camptothecin, as determined by colony formation assays of cultured cells, was 8 times greater for the cloned P388/CPT cell line than for P388/S. P388/CPT cells were not cross-resistant to other antineoplastic agents, including topoisomerase II inhibitors. The type I topoisomerases purified from P388/CPT and P388/S cells were identical with respect to molecular weight, specific activity, in vitro camptothecin sensitivity, and DNA cleavage specificity. Camptothecin induced fewer protein-associated DNA single-strand breaks in the resistant cells than in the wild-type P388 cells. Topoisomerase I mRNA, immunoreactivity, and extractable enzymatic activity were 2-4 times lower for P388/CPT cells than for P388/S cells. As resistance to camptothecin developed, topoisomerase I extractable activity decreased, concomitant with an increase in topoisomerase II extractable activity. Furthermore, the appearance of camptothecin resistance was associated with specific rearrangements of the topoisomerase I gene. These results suggest that development of resistance to inhibitors of topoisomerase I can occur by down-regulation of the target enzyme, thus reducing the production of lethal enzyme-mediated DNA damage. The enhanced topoisomerase II activity in these cells suggests that resistance to camptothecin may be overcome by co-treatment with topoisomerase II inhibitors.
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PMID:Development of a stable camptothecin-resistant subline of P388 leukemia with reduced topoisomerase I content. 217 65

Etoposide and teniposide are semi-synthetic glucoside derivatives of podophyllotoxin with a documented anti-tumour activity in various types of malignant diseases. It was an early observation that these epiphodophyllotoxins were efficacious in hematological malignancies such as lymphomas and leukemias. In this report the clinical evidence supporting the activity of etoposide and teniposide in acute lymphoblastic (ALL) and non-lymphoblastic leukemia (ANLL) is reviewed. Unlike podophyllotoxin, etoposide and teniposide do not appear to affect microtubular function nor arrest cells in mitosis. These epiphodophyllotoxins, like other DNA intercalating agents, have topoisomerase II as their target. Most studies with etoposide have been performed in ANLL and with teniposide in ALL. This choice seems to be rather arbitrary and is better explained by traditional reasons than actual study results. The data in acute leukemias are partly flawed by the absence of certain prospective comparative trials. However, the current information on etoposide clearly shows that this agent has substantial activity in ANLL and may well be incorporated into front-line regimens and the same is true for teniposide in the treatment of ALL. Nevertheless, based on available literature, there are no convincing data to the author's mind to support that one of these agents is superior to the other in the treatment of acute leukemias.
Med Oncol Tumor Pharmacother 1990
PMID:Etoposide and teniposide in the treatment of acute leukemia. 218 20

Amsacrine is a DNA intercalating agent which is active against a number of tumours in mice and is used for the treatment of leukaemia in humans. In its DNA-bound form, amsacrine efficiently quenches the fluorescence of ethidium. Fluorescence lifetime studies demonstrate two populations of DNA-bound ethidium. The first, whose fluorescence lifetime is constant at approx. 3 ns and whose proportion increases with increasing amsacrine binding ratio, may comprise molecules bound in close proximity to amsacrine. The second, whose fluorescence lifetime is longer and variable (10-24 ns) and whose proportion decreases with increasing amsacrine binding ratio, may comprise molecules three or more base-pairs away from ethidium. Studies with a number of derivatives of 9-anilinoacridine containing different anilino substituents suggest that the observed wide variation in quenching capacity is correlated with the magnitude of the substituent dipole moment in a particular direction. Consideration of the geometry of the DNA-binding complex indicates that the negative pole of a dipole established in the anilino ring is directed towards a positively charged site on the ethidium molecule. Quenching of ethidium fluorescence may therefore occur where an electron-transfer complex has formed between ethidium and amsacrine molecules. To ascertain whether electron-transfer complex formation is biologically important in the amsacrine series, ethidium quenching has been quantitated and compared with activity against a transplantable neoplasm in mice, the Lewis lung carcinoma. Compounds which strongly quench ethidium fluorescence are in general highly active antitumour agents. The results are discussed in terms of a model where amsacrine has both a DNA-binding and a protein-binding domain, the latter possibly interacting by formation of an electron-transfer complex. The most likely protein-binding domain is on the enzyme topoisomerase II, the target for its cytotoxic activity.
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PMID:The possible role of electron-transfer complexes in the antitumour action of amsacrine analogues. 220 43

After twenty years, understanding the mechanisms of tumor cells kill by anthracyclines still remains an active area of research. Of many mechanisms described for this class of drugs, efforts in the last year have focused on defining the role of free radical formation, topoisomerase II-induced DNA breakage, and P-170-dependent cellular accumulation of anthracyclines in tumor cell kill and resistance. First, in a number of tumor cell lines, the formation of free radical species from anthracyclines has been implicated in the cell killing. Modulation of detoxification pathways in a drug-resistant cell line e.g depletion of GSH, a substrate for peroxidase and transferase, enhanced both the formation of oxy-radicals and adriamycin cytotoxicity. It should be noted, however, that these findings are not true for every cell line examined, and free radical-mediated tumor kill may be cell- or tissue-specific. Second, anthracyclines-mediated topo II-dependent DNA cleavage was observed in most cell lines and reduced breaks were found in resistant cells. The decrease in single-strand breaks, however, neither correlated with the degree of resistance nor with differences in the relative topo II activity, which was in most cases only two-fold less in resistant cells than in sensitive cells. Finally, the reduced accumulation of the drug does not appear to be the only contributing factor in multidrug resistant cells and P-170 is not the only protein overexpressed in certain cells, e.g., an 85,000 Da protein may also be linked to adriamycin resistance. Although GST protein is overexpressed in most adriamycin resistant cells along with mdr1 gene, current evidence suggests that this protein may not be directly involved in adriamycin resistance. Taken together, both the mechanism of action and resistance to this class of drug likely vary among cell lines. Clinical studies in the past year have brought about interesting refinements in anthracycline-containing chemotherapy; ICRF-187 (by itself also cytotoxic) seems to offer protection against cardiac toxicity, while implicating iron in the mediation of cardiac damage. Out of a large number of newer anthracycline derivatives, clinical evidence indicates only a modest increase in therapeutic index with a few analogs, perhaps idarubicin and epirubicin. It is not yet clear that being able to receive more milligrams (or more cycles) of anthracycline eventually translates into a significantly better response rate or in a survival advantage. Much less clear is whether patients refractory to adriamycin may derive any benefit from newer anthracyclines.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Anthracyclines. 222 2

The comet assay, which measures DNA strand breakage in individual cells, was used to examine the relation between DNA damage, cell survival, and resistance to the topoisomerase II inhibitor etoposide (VP-16). Chinese hamster V79-171b cells and a VP-16-resistant subline (VPr) were exposed to VP-16 as monolayers or spheroids. The comet assay was comparable in sensitivity to the DNA precipitation and alkali unwinding assays for detecting DNA strand breaks induced by VP-16. However, unlike conventional DNA damage assays, the comet assay also indicated heterogeneity in cell response. For V79 multicell spheroids exposed to VP-16, the external cycling cells were 50 times more sensitive to killing and DNA damage than the internal noncycling cells; the comet assay indicated the fraction of cells resistant to the drug. VPr cells, which were 10 times more resistant to killing and DNA damage by VP-16 than the parent cell line, could also be identified in mixed populations with the use of this method. These results suggest that the comet assay could be useful in predicting tumor cell response to DNA-damaging agents.
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PMID:Detection of etoposide resistance by measuring DNA damage in individual Chinese hamster cells. 232 48

Ethyl 5-amino-1,2-dihydro-2-methyl-3-phenylpyrido[3,4-b]pyrazin- 7-ylcarbamate, 2-hydroxyethanesulfonate, hydrate (NSC 370147) was evaluated for antitumor activity against a spectrum of tumor systems in culture and in mice. NSC 370147 was cytotoxic to a variety of mouse and human cell lines at nanomolar concentrations. The compound exhibited good in vivo antitumor activity against several murine tumors (P388 and L1210 leukemia, colon 11/A and 36, mammary 16/C, and M5076 sarcoma). Activity was largely independent of route of administration but favored a prolonged treatment schedule. NSC 370147 was as active against murine leukemia sublines resistant to Adriamycin, amsacrine, vincristine, melphalan, cisplatin, methotrexate, and CI-920 (a topoisomerase II inhibitor) as against the corresponding parental lines. Only the 1-beta-D-arabinofuranosylcytosine-resistant P388 subline exhibited any cross-resistance to NSC 370147. NSC 370147 has a spectrum of activity similar to that of vincristine and, unlike vincristine, is active against multidrug-resistant cell lines. Therefore, NSC 370147 is a candidate for clinical trial because of its favorable activity compared to vincristine, its effectiveness against multidrug-resistant cells, and its retention of activity for p.o. administration.
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PMID:Antitumor activity of ethyl 5-amino-1,2-dihydro-2-methyl-3-phenyl-pyrido [3,4-b]pyrazin-7-ylcarbamate, 2-hydroxyethanesulfonate, hydrate (NSC 370147) against selected tumor systems in culture and in mice. 233 19

Previously, we reported on the resistance to cis-diamminedichloroplatinum(II) (cis-DDP) of tumor cells in IgM immunocytoma tumors. In vitro cell lines were established, from tumors both sensitive and resistant to cis-DDP. The cultured cells obtained from the parent tumor were designated IgM-I, and those from a cis-DDP resistant tumor IgM/cDDP. In vitro dose response studies showed a difference in cis-DDP sensitivity with a resistance factor of approximately 20 at a relative survival of the tumor cells of 50 percent. The resistance factor was determined both in an assay with continuous cis-DDP exposure for 72 h, and in a clonogenic assay after an exposure for 1 h to various dosages of cis-DDP. The IgM/cDDP cells showed cross-resistance, in vitro and in vivo, to the currently used cis-DDP analogs carboplatin (CBDCA or JM8) and iproplatin (CHIP or JM9). Cross-resistance was also observed against the recently developed platinum(IV) compound tetraplatin. In addition, the cell line IgM/cDDP was resistant to other drugs interacting with DNA, such as doxorubicin (DXR), mitomycin C (MMC) and melphalan (L-PAM). For two non DNA-interacting drugs, vincristine (VCR), a mitosis inhibitor, and VP-16, a topoisomerase inhibitor, both cell lines were equally sensitive.
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PMID:Resistance of in vitro grown IgM immunocytoma cells to cis-diamminedichloroplatinum (II) (cis-DDP) and cross-resistance to other DNA interacting drugs. 234 18

Recombinant human tumor necrosis factor (rHTNF) alone had no effect on L929 tumor cells at 100 units/ml for 20 h of continuous exposure. However, under the same conditions, rHTNF markedly enhanced the cytotoxicity of Adriamycin, actinomycin D, 4'-(9-acridinylamino)-methanesulfon-m-anisidide, teniposide (VM 26), and etoposide (VP 16), all targeted at DNA topoisomerase II. The rHTNF had a minimally enhancing effect on the cytotoxicity of bleomycin, hydroxyurea, and 1-beta-D-arabinofuranosylcytosine and no effect on the cytotoxicity of cis-platinum, mitomycin C, vincristine, and vinblastine, all chemotherapeutic drugs with dose-related cytotoxic effects on L929 cells but mechanisms of action which do not appear to involve topoisomerase II. Treatment with rHTNF first and then topoisomerase-targeted drugs yielded no enhanced cytotoxicity, whereas pretreatment with drug followed by rHTNF yielded marked enhancement of cytotoxicity. Topoisomerases have previously been implicated in cell kill phenomena following treatment with certain chemotherapeutic agents [K.M. Tewey, et al., Science (Wash. DC), 226:466-468, 1984]. The data suggest that the lethality to the cell from topoisomerase-targeted drug treatment is increased by rHTNF in vitro. We suggest that rHTNF may be a useful adjuvant to this class of drugs which has well-known antitumor activity.
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PMID:Synergistic enhancement by tumor necrosis factor of in vitro cytotoxicity from chemotherapeutic drugs targeted at DNA topoisomerase II. 243 63

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