Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:5.99.1.2 (topoisomerase)
 9,166 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Amsacrine and demethylepipodophyllotoxins (etoposide and teniposide) are potent topoisomerase II inhibitors which have optimum activity in different cancers. To investigate whether these differences are due to different activity on cellular oncogenes, drug-induced topoisomerase II cleavage sites were mapped and sequenced in the human c-myc protooncogene. In the presence of purified murine L1210 topoisomerase II, amsacrine induces prominent cleavage in the P2 promoter (site 2499/2502). Footprinting experiments indicate that topoisomerase II binds to the entire promoter region (approximately 20 base pairs on the sides of the P2 site). In the case of teniposide or etoposide, cleavage is more diffuse and markedly less at the P2 site. Mapping of cleavage sites in human small cell lung carcinoma cells (NCI N417) also shows that cleavage in the P2 promoter region is induced preferentially by amsacrine but not by demethylepipodophyllotoxins. Thus, selective gene damage among topoisomerase II inhibitors may contribute to differential anticancer activity.
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PMID:Differential effects of amsacrine and epipodophyllotoxins on topoisomerase II cleavage in the human c-myc protooncogene. 131 59

Azatoxin [NSC 640737-M; 5.R,11aS-1H,6H,3-one-5,4,11,11a-tetrahydro-5-(3,5-dimethoxy-4-hydr oxyphenyl) oxazolo (3',4':1,6)pyrido-(3,4-b)indole] was rationally designed from a model for the pharmacophore of drugs with topoisomerase II inhibition activity. This pharmacophore has at least 2 domains: a quasiplanar polycyclic ring system proposed to bind between the DNA base pairs and a pendant substituent proposed to interact with the enzyme and/or to the DNA grooves. The present study shows that, in cell free systems, azatoxin induces a large number of double strand-breaks in linear Simian virus 40 and human c-myc DNA. These breaks yield cleavage patterns that are different from those of well established topoisomerase II inhibitors (epipodophyllotoxins, amsacrine, mitoxantrone). Azatoxin also inhibits the catalytic activity of purified topoisomerase II, and is a nonintercalator. The structure-activity relationship of 3 isomers and 6 derivatives of azatoxin shows a stringent stereochemical requirement for activity. The effects of azatoxin pendant ring substitution on topoisomerase II mediated DNA cleavage activity were similar to the relationship observed for etoposide.
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PMID:Rational design and molecular effects of a new topoisomerase II inhibitor, azatoxin. 132 92

The level of expression of cellular proto-oncogens c-myc and c-fos in rat liver has been studied as a function of protein synthesis rate (cycloheximide dose). Activation of proto-oncogens has been established to be initiated by 50% inhibition of nuclear protein synthesis. This promotes a certain level in chromatin structural rearrangements which is manifested, in particular, in decreasing activity of chromatin cleavage by Ca2+, Mg(2+)-DNAase and increasing degree of chromatin condensation. A role of topoisomerase II in chromatin structural rearrangements during proto-oncogen activation is postulated.
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PMID:[Structural changes of chromatin during proto-oncogene activation by cycloheximide: dose-effect]. 145 95

8-Methoxycaffeine (8-MOC) is a caffeine derivative, more potent than the parent compound, but very similar to caffeine in terms of induction of DNA single-strand breaks (SSBs), DNA double-strand breaks (DSBs) and DNA-protein crosslinks (DPCs). We have studied the capability of 8-MOC, caffeine and 8-chlorocaffeine (8-CC) of inducing SSBs, DSBs and DPCs, and we have compared 8-MOC with ellipticine, a typical inhibitor of DNA topoisomerase II. The DNA effects of 8-MOC appeared similar to those of ellipticine. In both cases SSBs, DSBs and DPCs were present in a similar ratio, and they were rapidly reversible after removal of the drug. The dose-response curve was bell-shaped for both compounds. In addition, 8-MOC, caffeine and 8-CC were capable of inhibiting DSBs induced by ellipticine. These results were obtained at the level of L1210 cell nuclei. In spite of these functional similarities, 8-MOC, caffeine and 8-CC were unable to stimulate the formation of a cleavable complex by purified L1210 topoisomerase II (p170 form) when SV40 DNA and human c-myc DNA were used as substrate. These methylated oxypurines could be active on a different form of topoisomerase II, or, alternatively, they could be active only in the natural chromatin 'milieu' within the nucleus.
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PMID:Production of protein-associated DNA breaks by 8-methoxycaffeine, caffeine and 8-chlorocaffeine in isolated nuclei from L1210 cells: comparison with those produced by topoisomerase II inhibitors. 165 26

Inherited susceptibility to a wide variety of neoplasias (Li-Fraumeni syndrome), has been shown in studies of one cancer-prone family, to have an intriguing association with an aberrant c-raf-1 gene and inheritance of a radioresistant phenotype in their non-cancerous skin fibroblasts. This association together with observations that DNA topoisomerases, when defective, can introduce errors into DNA and that these enzymes are perturbed in vitro by serine/threonine kinases similar to raf encoded proteins, prompted investigation of DNA topoisomerase activity of the family's fibroblasts. Since radioresistance was transferred to murine cells (NIH-3T3) when the aberrant c-raf-1 gene from this family was transfected, we also examined transformants containing this and other oncogenes. V-raf/c-myc and EJ-ras transformants were examined, the former because the family's skin fibroblasts also have 3-8-fold elevated myc expression (not apparently relevant to radioresistance) and the latter because ras, like raf, conveys radioresistance. The family members' fibroblasts and the three transfected murine lines, showed a similar perturbation of a spermidine and ATP-dependent DNA catenation activity (typical of DNA topoisomerase II). There was a significant positive correlation (r = 0.93; P = 0.0026) between the degree of activation of topoisomerase II and one measure of radioresistance (the Dq value). Relaxation of DNA supercoiling (topoisomerase I activity and other DNA nicking enzymes) was not abnormal. Cytotoxicity assays and evaluation of the influence of topoisomerase II inhibitors on DNA/protein complex formation, corroborated the existence of a qualitative topoisomerase II defect in the family's cells and transfectants. Although the contention that the qualitative topoisomerase II abnormalities observed here may be associated with malfunction is highly speculative, these findings may be relevant to the mechanism of oncogenesis, not only in this family, but with raf and ras type oncogenes.
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PMID:Aberrant DNA topoisomerase II activity, radioresistance and inherited susceptibility to cancer. 184 52

The administration of the DNA topoisomerase II inhibitors 4'-(9-acridinylamino)methanesulfon-m-anisidide (m-AMSA) (10(-7) M), VP-16 (2 x 10(-7) M), or novobiocin (1.5 x 10(-4) M) reduces the growth activity of human promonocytic leukemia U-937 cells, by arresting them preferentially at the G2 (m-AMSA and VP-16) or at the G1 and G2 (novobiocin) phases of the cell cycle. Under these conditions, m-AMSA and VP-16 induce the differentiation of the cells efficiently, as proved both by an increase in the production of reactive oxygen species and by the activation of the surface expression of CD11b and CD11c, two differentiation-specific antigens. Novobiocin also induces the expression of those differentiation markers, but to a lesser extent. Analyses by Northern blot indicate that the topoisomerase II inhibitors reduce the levels of c-myc and beta-actin mRNA and increase the levels of vimentin mRNA. The expression of vimentin is also stimulated at the protein level, as indicated by immunofluorescence assays. This represents one of the few known instances in which topoisomerase inhibitors stimulate gene expression in eukaryotic cells.
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PMID:Differentiation of human promonocytic leukemia U-937 cells with DNA topoisomerase II inhibitors: induction of vimentin gene expression. 185 89

In order to understand the cellular events associated with cell death after the formation of topoisomerase II-DNA cleavable complexes, we compared the induction of endonucleolytic DNA fragmentation by etoposide and its more potent analog, teniposide (VM-26) in the human cell lines HT-29 and HL-60. A new filter-binding assay is described, which allows rapid quantification of nonprotein-linked DNA fragmentation involved in apoptosis. Both cell lines showed similar loss of colony formation ability following 30 min of treatment with various VM-26 concentrations even though the initial topoisomerase II-mediated DNA single-strand break frequency was higher in HL-60 cells. DNA repair studies following drug removal indicated that VM-26-induced DNA breaks reversed rapidly and completely in HT-29 cells, while in HL-60 cells, the initial lesions persisted at and above 5 microM VM-26. In both cell lines, topoisomerase II cleavage complexes, as measured by DNA-protein cross-links by alkaline elution, reversed rapidly and completely within 2-3 h. Secondary DNA fragmentation resembling chromatin endonucleolytic cleavage by apoptosis could be detected in HL-60 cells 3 h after VM-26 or etoposide treatment but not in HT-29 cells. Secondary DNA fragmentation was also induced in the human colon cancer cell lines COLO 320, which have c-myc amplification. Since HL-60 cells also have c-myc amplification and HT-29 do not, it is possible that c-myc overexpression may be involved in secondary DNA fragmentation. Finally, our results indicate heterogeneity of cell death mechanisms after exposure to topoisomerase II inhibitors among human cancer cell lines.
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PMID:Differential induction of secondary DNA fragmentation by topoisomerase II inhibitors in human tumor cell lines with amplified c-myc expression. 193 88

When hepatocyte proliferation is stimulated in the liver by partial hepatectomy, messenger RNAs coding for fibrinogen, actin, c-myc and topoisomerase I are rapidly accumulated. We distinguish an early phase of accumulation (0-3 h after partial hepatectomy) which is also observed after a sham operation for the four genes, and during inflammation produced by Freund's adjuvant in the case of fibrinogen and c-myc genes. The hepatic response to inflammation appears therefore to mimic events characteristic of the G0/G1 transition, such as the accumulation of the c-myc mRNA. The late phase of mRNA accumulation (beyond 3 h after partial hepatectomy) is typical of liver regeneration. The level of c-myc mRNA is transiently increased (20-fold over normal) 20 h after partial hepatectomy, that is, at the time of DNA synthesis. Topoisomerase-I mRNA level increases between 3 and 24 h after partial hepatectomy (5-10-fold over normal). These results suggest that accumulation of c-myc and topoisomerase-I mRNAs is associated with DNA replication in regenerating liver.
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PMID:Gene expression in regenerating liver in relation to cell proliferation and stress. 254 2

Ellipticine derivatives have been shown to induce DNA strand breaks by trapping DNA-topoisomerase II (Topo II) in an intermediary covalent complex between Topo II and DNA which could be related to their cytotoxic effects. We report here that Celiptium and Detalliptinium, two ellipticine derivatives clinically used for their antitumoral properties against breast cancer, exhibit the highest in vitro activity on Topo II DNA cleavage reaction and decatenation among a series of 14 ellipticine derivatives. The in vitro cleavage site specificity in pBR 322 plasmid DNA and in a human c-myc gene inserted in a lambda phage DNA is identical for both ellipticines, but different from m-AMSA, another Topo II related antitumoral agent. Recently, it has been shown that the ellipticine derivative Celiptium presents a strong cytotoxic activity in vitro on different human tumors including small cell lung carcinoma (SCLC). However, the studies that involved Topo II as a target for ellipticine derivatives have been performed only by using animal tumor cell lines. Therefore we have studied the in vivo DNA cleavage activity of Celiptium and Detalliptinium on a human SCLC cell line, NCI N417, comparatively to that obtained with m-AMSA. The respective IC50 on cell growth are 9, 8 and 1 microM for Celiptium, Detalliptinium and m-AMSA, respectively. Using the alkaline elution technique, we have observed that Celiptium and Detalliptinium exhibit a weak cleavage activity on genomic DNA from whole cells. The ellipticines are about 50 times less potent than m-AMSA in inducing DNA strand breaks. Analysis of in vivo c-myc gene cleavage by Southern blot hybridization also demonstrates a lack of activity of the ellipticine derivatives as no gene cleavage could be detected up to 50 microM of the drug. With m-AMSA, c-myc gene cleavage is detected at a concentration of 0.2 microM, which indicates that this methodology is less sensitive in detecting DNA strand breaks than is the alkaline elution. Further studies of the drug effect on isolated nuclei by alkaline elution also show that the DNA cleavage activity of Celiptium and Detalliptinium is increased when compared to whole cells. Our data indicate that these two drugs have a weaker cytotoxic effect than m-AMSA on NCI N417 cell line, due to a limited access to the cell nucleus rather than to a lack of activity on Topo II as assessed by in vitro and isolated nuclei experiments.
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PMID:Topoisomerase II-mediated DNA cleavage activity induced by ellipticines on the human tumor cell line N417. 254 83

The antitumor drugs mAMSA and VM26 were shown to stimulate the topoisomerase II (Topo II) cleavage activity on the c-myc protooncogene in several human tumor cell lines (N417, HL60, EJ, H146, CaSki, A431, IGROV1, and CAL18A) and human peripheral lymphocytes. The mAMSA-induced gene cleavage was found to increase with the steady-state levels of c-myc transcripts in cell lines while no cleavage could be evidenced in the other genes so far tested. In mAMSA-treated N417 cells, the overall genomic DNA cleavage detected by alkaline elution was found to be about 20 times lower than the c-myc gene cleavage. Topo II mRNA levels were associated with the nuclear Topo II decatenating activity in cell lines and increased with c-myc cleavage. Topo II decatenating activity was found to be 3 times lower in quiescent than in exponentially growing N417 cells, but the c-myc cleavage induced by mAMSA was found as intense in quiescent as in growing cells. Thus, our data seem to indicate that c-myc gene cleavage is not related to cellular Topo II content but rather to c-myc gene transcription. Therefore, we suggest that only a small fraction of the Topo II is able to react with drug on the c-myc gene in relation to its transcriptional accessibility. Since c-myc overexpression is frequently found to be related to human cancer progression, we suggest that this gene could be an important target for Topo II related antitumor drugs.
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PMID:Stimulation of the topoisomerase II induced DNA cleavage sites in the c-myc protooncogene by antitumor drugs is associated with gene expression. 255 17


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