UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A major goal of cancer therapy research is identification of critical biochemical targets that mediate the ability of effective cancer chemotherapy to kill tumor cells while allowing the maintenance of normal cell function. A candidate for such a target is DNA topoisomerase II, a ubiquitous enzyme that alters three-dimensional conformation of supercoiled DNA. DNA intercalating agents and epipodophyllotoxins stabilize a DNA and topoisomerase II complex. The process of stabilization probably represents the poisoning of an intermediate state in the normal functioning of the enzyme. This stabilized intermediate state can be measured in whole cells using the filter elution method of Kohn to quantify protein-associated DNA cleavage produced when the cells are exposed to intercalators or epipodophyllotoxins. By altering cell populations in quantifiable ways, four factors appear to influence the magnitude of drug-induced, topoisomerase II-mediated DNA cleavage and cytotoxicity: the proliferative state of the cell (proliferating cells are more sensitive than quiescent ones); the cell cycle state (cells pharmacologically recruited into G1-S are more sensitive than asynchronously growing cells); the chromatin conformation (DNA methylation, polyamine depletion, and other chromosomal changes can alter the magnitude of topoisomerase II-mediated effects); the cellular phenotype (in an as yet uncharacterized manner, malignant cells apparently are more sensitive to topoisomerase II-mediated events than normal cells). These data suggest that the biochemical basis of the therapeutic index of drugs such as the intercalating agents or epipodophyllotoxins may be the intrinsic hypersensitivity of the topoisomerase II in malignant cells to poisoning by these drugs.
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PMID:DNA topoisomerase II as a target of antineoplastic drug therapy. 300 May 74

Several intercalating agents, as well as the epipodophyllotoxins, appear to effect DNA damage through their interaction with type II DNA topoisomerases. However, the relationship of this phenomenon to anti-tumor activity remains unproven. Our studies with an epipodophyllotoxin-resistant cell line not only provide additional evidence that the enzyme is a multidrug target but also serve to implicate it as a mediator of cytotoxic effect. When compared to wild-type cells, the epipodophyllotoxin-resistant Chinese hamster ovary cell line, VpmR-5, exhibits cross-resistance to both the cytotoxic and DNA cleavage activities of 4',9-acridinylaminomethanesulfon-m-anisidide, mitoxantrone, and Adriamycin. Steady-state concentrations of radiolabeled-4',9-acridinylaminomethanesulfon-m-anisidide and daunomycin are identical in both cell lines. Sharp plateaus in the VpmR-5 dose-response curves for Adriamycin-induced DNA strand breaks and cytotoxicity appear to be related to interference with type II topoisomerase-mediated cleavage of DNA at high concentrations of the intercalator. These data support a direct role for DNA strand scission in cell death and also suggest that multidrug resistance may be acquired by a qualitative change in type II topoisomerase that alters interaction of drug with the enzyme or enzyme-DNA complex.
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PMID:Cross-resistance to intercalating agents in an epipodophyllotoxin-resistant Chinese hamster ovary cell line: evidence for a common intracellular target. 300 12

The anticancer agent etoposide (VP-16) produces DNA strand scission in intact tumor cells or isolated nuclei. This activity may be mediated by topoisomerase II, an enzyme capable of producing double strand breaks in mammalian cells. Two established tumor cell lines were examined to see whether polyamines, which alter DNA conformation and topoisomerase II activities, affected the cytotoxicity, strand scission, and antitumor efficacy of VP-16. L1210 murine leukemia and 8226 human myeloma cells were treated with alpha-difluoromethylornithine (DFMO) to reduce intracellular polyamine levels via inhibition of ornithine decarboxylase. The polyamines putrescine and spermidine were markedly reduced by a 48-h incubation with 50 microM DFMO. This DFMO concentration did not inhibit colony formation in either cell line, but did reduce the growth rate of both cultures. In contrast, VP-16 produced a dose-dependent inhibition of colony formation. This was especially marked in the 8226 cell line. This correlated with DNA single strand breaks (SSBs) detected by the alkaline elution technique. When cells previously treated with DFMO were exposed to VP-16, a synergistic inhibition of colony formation (determined by isobologram analysis) was observed. However, VP-16-induced SSBs were only marginally increased by the DFMO pretreatment. When putrescine was combined concurrently with VP-16, both the in vitro cytotoxic effects and the number of DNA SSBs in L1210 cells were significantly reduced. These results demonstrate that putrescine inhibits VP-16-induced SSBs and commensurate cytotoxic effects, while DFMO, which depletes intracellular putrescine and partially reduces intracellular spermidine, acts to produce synergistic cytotoxic effects when combined with VP-16.
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PMID:Modulation of etoposide cytotoxicity and DNA strand scission in L1210 and 8226 cells by polyamines. 301 79

The cytotoxic and cell kinetic effects of the epipodophyllotoxin 4,6-demethylepipodophyllotoxin-9-(4,6-O-ethylidene-beta-D-glucopyr anoside) (VP-16) in cultured mammalian cells are thought to relate to the induction of DNA damage, specifically DNA strand interruptions. In an effort to explore this relationship in human cells we have identified a VP-16-hypersensitive human cell system, namely an SV40-transformed fibroblast line (AT5BIVA) originally derived from an ataxia telangiectasia (AT) patient. Evidence is presented that enhanced VP-16 sensitivity may be a consistent in vitro feature at AT derived cells. However, the intrinsic sensitivity (DNA strand breaks per lethal hit quantitated by nucleoid sedimentation) was the same for AT5BIVA and a corresponding normal control, indicating that the AT cell line accumulated more drug-induced DNA damage during short-term VP-16 exposures. It is suggested that AT cells may have abnormal topoisomerase II activity. The cell cycle responses of normal and AT cells to VP-16 exposure were complex, with the generation of parasynchronous S phase populations and the accumulation of cells in G2. Differences in cell killing or DNA strand breakage between normal and AT cells could only be correlated with the magnitude and kinetics of the G2 retention phenomenon. In short, there are several similarities in the action of ionizing radiation and VP-16. We suggest that the sensitivity of cellular DNA to VP-16-induced DNA damage and the kinetics of the G2 delay may be useful parameters for predicting the survival probability of drug-treated human tumor populations.
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PMID:Predominant role for DNA damage in etoposide-induced cytotoxicity and cell cycle perturbation in human SV40-transformed fibroblasts. 301 31

We have analyzed 1 kb of cloned human c-fos sequence (-711 to +287) for calf thymus DNA topoisomerase II cleavage sites in vitro. Using the anti-tumor drug VP16 (demethylepipodophyllotoxin-beta-D-glucoside) with purified topoisomerase II, we identify twelve sites. Five sites are clustered around position -306 in a region that possesses enhancer-like properties. A second cluster of three sites is positioned 15 bp upstream of the TATA promoter element. With a HeLa nuclear extract as a source of topoisomerase II, a subset of cleavage sites is conserved within the two clusters. The cleavage sites in the enhancer-like element are conserved in the homologous region of the murine c-fos. These findings raise the possibility that topoisomerase II is involved in mediation of mitogen-induced c-fos expression.
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PMID:DNA topoisomerase II cleaves at specific sites in the 5' flanking region of c-fos proto-oncogenes in vitro. 302 64

The simian virus 40 (SV40) large T antigen (large tumor antigen), in conjunction with a topoisomerase, a DNA binding protein, and ATP, catalyzed the conversion of a circular duplex DNA molecule containing the SV40 origin of replication to a form with unusual electrophoretic mobility that we have named form U. Analysis of this molecule revealed it to be a highly underwound covalently closed circle. DNA unwinding was not detected with DNA containing a SV40 T-antigen binding site II mutation that renders the DNA inactive in replication. The unwinding reaction requires the action of a helicase, and SV40 T-antigen preparations contain such an activity. The T-antigen-associated ability to unwind DNA copurified with other activities intrinsic to T antigen [ability to support replication of SV40 DNA containing the SV40 origin, poly(dT)-stimulated ATPase activity, and DNA helicase]. However, in contrast to the unwinding activity, the SV40 T-antigen-associated helicase activity was not sequence-specific. A variety of labeled oligonucleotides hybridized with circular single-stranded DNA were displaced by T antigen in the presence of ATP.
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PMID:Simian virus 40 (SV40) DNA replication: SV40 large T antigen unwinds DNA containing the SV40 origin of replication. 302 51

We have examined the effect of the anti-tumor drug VM-26 on purified Drosophila topoisomerase II, and used this drug to map (putative) topoisomerase II cleavage sites in chromatin. These studies indicate that VM-26 interferes with the strand breakage-rejoining catalytic cycle. VM-26 appears to stabilize the topoisomerase-II-cleavable complex and markedly enhances the formation of double-strand breaks in naked DNA. VM-26 also stimulates the formation of double-strand breaks in isolated Drosophila nuclei. Analysis of the parameters of the VM-26-stimulated cleavage reaction in nuclei strongly suggests that the double-strand scissions are generated by endogenous topoisomerase II. Finally, we have examined the distribution of (putative) cleavage sites for endogenous topoisomerase II in the chromatin of the 87A7 heat shock locus and the histone repeat unit. We have found that there are prominent VM-26-induced cleavage products from the 5' ends of the 87A7, the two heat shock protein 70 genes, and in the intergenic spacer separating these genes. Moreover, the pattern of VM-26-induced cleavage products is altered in nuclei prepared from heat-shocked cells. In the case of the histone repeat unit, only minor VM-26-induced cleavage products are observed in nuclei (in spite of the fact that experiments on naked DNA indicate that the histone repeat contains many major cleavage sites for purified topoisomerase II). These findings suggest that the nucleoprotein organization of different DNA segments may be important in determining whether specific sites are accessible to endogenous topoisomerase II in nuclei.
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PMID:Topoisomerase II cleavage in chromatin. 302 49

We examined the roles of DNA topoisomerases in the replication of simian virus 40 (SV40) DNA in a cell-free system composed of an extract from HeLa cells supplemented with purified SV40 tumor antigen. When the activities of both topoisomerase I (EC 5.99.1.2) and topoisomerase II (EC 5.99.1.3) in the extract were blocked with specific inhibitors or antibodies, DNA synthesis was decreased by a factor of 15-20. Addition of purified HeLa DNA topoisomerase II to extracts immunologically depleted of both topoisomerases completely restored replication, and the replication products consisted largely of monomeric daughter molecules. Addition of purified HeLa DNA topoisomerase I to depleted extracts restored DNA synthesis, but the primary products were multiply intertwined, catenated daughter molecules. We conclude that DNA topoisomerases have at least two roles in the replication of SV40 DNA. Either topoisomerase I or topoisomerase II is sufficient to provide the unlinking activity necessary for fork propagation during SV40 DNA replication. However, topoisomerase II is uniquely required for the segregation of newly synthesized daughter molecules.
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PMID:Roles of DNA topoisomerases in simian virus 40 DNA replication in vitro. 302 65

Recombinant human tumor necrosis factor (rTNF) is a macrophage secretory protein with antitumor activity. The murine bladder tumor cell line MBT-2 was used to evaluate the in vitro and in vivo antitumor effects of rTNF in combination with chemotherapeutic drugs targeted at DNA topoisomerase II. These drugs, such as adriamycin and etoposide (VP 16), are in widespread use in the treatment of human cancer. The rTNF significantly enhanced the cytotoxic efficacy of the topoisomerase-targeted drugs actinomycin D, adriamycin, etoposide (VP 16) and teniposide (VM 26) against MBT-2 cells in vitro. The rTNF alone had no effect upon the cells in the same assay. When examined in vivo using MBT-2 tumor-bearing C3H/HeJ mice, these same antitumor relationships were seen. The addition of rTNF to actinomycin D or VP 16 resulted in a significant reduction in tumor volume at 20 days compared to untreated animals. Actinomycin D, VP 16 or rTNF treatment alone had no significant effect on 20 day tumor volume. The data provide a reasonable basis for the addition of rTNF to experimental protocols for the treatment of human bladder cancer using topoisomerase-targeted drugs such as adriamycin both intravesically and systemically. These observations may also be relevant to other human cancers currently treated with these drugs.
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PMID:Tumor necrosis factor enhances the in vitro and in vivo efficacy of chemotherapeutic drugs targeted at DNA topoisomerase II in the treatment of murine bladder cancer. 303 27

PLC/PRF/5 hepatoma cells cultured with a tumor promoter teleocidin showed polygonal cellular appearance with many vacuole-like structures, and reduced both c-myc mRNA level and growth rate. These teleocidin effects were partly mimicked by sodium butyrate but not by a protein kinase C stimulant 1-oleoyl-2-acetylglycerol(OAG). Protein kinase C inhibitor 1-(5-isoquinolinyl-sulfonyl)-2-methyl-piperazine(H7), calmodulin-dependent protein kinase antagonist N-(6-aminohexyl)-5-chloro-1-naphthalene sulfonamide(W7) and topoisomerase II inhibitor novobiocin failed to inhibit the effects of teleocidin. These results may suggest the presence of still unknown biochemical pathways which mediate the actions of teleocidin.
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PMID:Effects of teleocidin on the morphology and c-myc expression of hepatoma cells which are not inhibited by protein kinase antagonists. 310 17

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