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

Anilino analogues of amsacrine showed increased activity against amsacrine (AMSA)-resistant cell lines when compared with the parent compound, but the mechanisms of amsacrine resistance in these lines were unknown (Finlay, G. J., Baguley, B. C., Snow, K., and Judd, W., J. Natl. Cancer Inst., 82: 662-667, 1990). We tested the cytotoxic and DNA-cleaving activities of two amsacrine analogues which were derivatives of 9-anilinoacridine (1'-methylcarbamate and 1'-benzenesulfonamide) against an amsacrine-resistant human leukemia cell line (HL-60/AMSA) whose resistance is due to an amsacrine-resistant topoisomerase II. Neither agent could overcome the amsacrine resistance of HL-60/AMSA. Neither agent could induce HL-60/AMSA topoisomerase II-mediated cleavage of DNA in an isolated biochemical system, although at high concentrations the two analogues could inhibit HL-60/AMSA topoisomerase II-mediated DNA strand passage. Both analogues were at least as active, if not more active, than amsacrine against amsacrine-sensitive HL-60 and its topoisomerase II. Comparison of the cellular and biochemical results with those from computer simulation of the energy-minimized structures of amsacrine, its inactive isomer o-AMSA, and the two new active analogues suggests the following possibilities: (a) the positioning of the potential topoisomerase II-binding site (1'-anilino group) of the two new drugs resembles the positioning of this site in amsacrine; (b) the HL-60 topoisomerase II has a binding site which interacts with amsacrine and the two anilino analogues but not with o-AMSA, an analogue with altered positioning of the methoxy group; (c) the HL-60/AMSA topoisomerase II interacts with reduced affinity with amsacrine and the two anilino analogues, although HL-60/AMSA topoisomerase II still interacts with the structurally distinct topoisomerase II-reactive nonintercalator, etoposide; (d) because of their higher DNA binding affinity or the greater possible positions of their side groups in comparison to amsacrine, the two analogues can, at high concentrations, inhibit the strand-passing activity of HL-60/AMSA topoisomerase II.
Cancer Res 1992 Jan 01
PMID:Relative activity of structural analogues of amsacrine against human leukemia cell lines containing amsacrine-sensitive or -resistant forms of topoisomerase II: use of computer simulations in new drug development. 130 24

Human cells contain two topoisomerase II isozymes named topo II alpha and topo II beta. The complementary DNAs for both enzymes have been cloned. The topo II alpha and topo II beta complementary DNAs hybridized to unique sequences of human, rodent, and chicken DNAs in Southern blots. The human topo II alpha gene has previously been mapped to chromosome 17. We confirmed the chromosomal location of topo II alpha and mapped the topo II beta gene to chromosome 3. In addition, topo II beta exhibits genetic polymorphism as has been reported for topoisomerases I and II alpha.
Cancer Res 1992 Jan 01
PMID:Topoisomerase II alpha and topoisomerase II beta genes: characterization and mapping to human chromosomes 17 and 3, respectively. 130 26

We demonstrated previously that human cytomegalovirus (CMV) infections could enhance the expression of cellular topoisomerase II and this enzyme activity is essential for CMV to replicate in vitro (Benson and Huang, 1988; Benson and Huang, 1990). In this study, we further show that in addition to m-AMSA and VM26 which we had previously reported, a widely used and clinically available drug, etoposide (VP-16 or VePesid) can irreversibly inhibit CMV replication at the drug concentration (2.5 micrograms/ml) greatly below toxic levels to stationary phase cells. Growing cells were more sensitive to etoposide than stationary phase cells and slight growth inhibition occurred at 2.5 micrograms/ml level. This inhibitor does not prevent the expression of CMV immediate-early and early genes, but can inhibit viral DNA and late viral-proteins synthesis. Because of their irreversible inhibitory effects and approval usage in clinical oncology, it is suggested that this group of compounds, particularly etoposide (VP-16), can be used to control life-threatening CMV infections, such as CMV pneumonitis and CMV retinitis, in cancer and immunocompromised patients or patients with AIDS.
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PMID:Irreversible inhibition of human cytomegalovirus replication by topoisomerase II inhibitor, etoposide: a new strategy for the treatment of human cytomegalovirus infection. 131 May 81

Patterns of drug sensitivities in relation to topoisomerase II gene expression and activity were studied in eight human lung cancer cell lines not selected in vitro for drug resistance. The cytotoxicities of doxorubicin, etoposide, teniposide, cisplatin, camptothecin, and 5-fluorouracil were measured and, remarkably, these unselected cell lines were shown to have a common pattern of multidrug sensitivity, i.e., a multidrug sensitivity phenotype. In fact, drug sensitivities were significantly correlated with each other in the studied cell lines, the correlation being best for the topoisomerase II-targeted agents and cisplatin, less strong with camptothecin, and weak with 5-fluorouracil. Almost 1-log range difference of topoisomerase II gene expression was found in these cell lines, and this was not explained by the cell-doubling time or cell cycle distribution. The level of topoisomerase II gene expression was positively and highly correlated with the cell sensitivity to epipodophyllotoxins, doxorubicin, and cisplatin in seven cell lines. Although weaker, an association was also observed between topoisomerase II gene expression and camptothecin cytotoxicity, while no association was observed with 5-fluorouracil. However, a non-small cell lung cancer cell line with neuroendocrine properties had very low levels of expression of the topoisomerase II gene, despite being highly sensitive to all drugs tested. The levels of topoisomerase I gene expression were not found to be correlated with the cytotoxicity of any drug tested. A specific enzymatic activity assay and a teniposide-stimulated DNA cleavage assay showed that the extent of active topoisomerase II present in nuclear extracts paralleled the level of topoisomerase II gene expression. Furthermore, in addition to the normal transcript, an abnormally sized topoisomerase II message and a rearrangement of the topoisomerase II gene were detected in a poorly sensitive small cell lung cancer cell line. Therefore, low levels of topoisomerase II gene expression, and possibly mutations, may predict a reduced sensitivity of unselected human lung cancer cell lines to several drugs, including agents with a cellular target other than topoisomerase II. It is hypothesized that topoisomerase II might be involved in a common pathway of cell death induced by drugs in tumor cell lines which present a multidrug sensitivity phenotype.
Cancer Res 1992 Apr 01
PMID:Multidrug sensitivity phenotype of human lung cancer cells associated with topoisomerase II expression. 131 95

The antitrypanosomal and antifiliarial drug suramin is currently under investigation for treatment of advanced malignancies including prostatic cancer, adrenocortical cancer, and some lymphomas and sarcomas. Here we show that suramin is a potent inhibitor of the nuclear enzyme DNA topoisomerase II. Suramin inhibited purified yeast topoisomerase II with an IC50 of about 5 microM, as measured by decatenation or relaxation assays. Suramin did not stabilize the covalent DNA-topoisomerase II reaction intermediate ("cleavable complex"), whereas other inhibitors of this enzyme, such as amsacrine, etoposide, and the ellipticines, are known to stabilize the intermediate. In contrast, the presence of suramin strongly inhibited the cleavable-complex formation induced by amsacrine or etoposide. Accumulation of the endogenous cleavable complex was also inhibited. Suramin entered the nucleus of DC-3F Chinese hamster fibrosarcoma cells exposed to radiolabeled suramin for 24 hr as shown by both optic and electron microscopy. The suramin present in the nucleus seemed to interact with topoisomerase II, since suramin reduced the number of amsacrine-induced protein-associated DNA strand breaks in DC-3F cells and protected these cells from the cytotoxic action of amsacrine. Cells resistant to 9-hydroxyellipticine, which have been shown to have an altered topoisomerase II activity, are about 7-fold more resistant to suramin than the sensitive parental cells as shown by 72-hr growth inhibition assay. Our results suggest that DNA topoisomerase II is a target of suramin action and that this action may play a role in the cytotoxic activity of suramin.
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PMID:Suramin is an inhibitor of DNA topoisomerase II in vitro and in Chinese hamster fibrosarcoma cells. 131 77

The effects of serine phosphorylation on the DNA cleavage/religation equilibrium of topoisomerase II and the sensitivity of the enzyme to antineoplastic drugs were characterized. Both casein kinase II and protein kinase C were used for these studies. Each kinase incorporated a maximum of approximately 1.4 phosphate molecules per homodimer of topoisomerase II. When the enzyme was incubated with both kinases simultaneously, phosphate incorporation increased to approximately 2.6 molecules/homodimer. In the absence of antineoplastic drugs, phosphorylation had only a slight effect on the DNA cleavage/religation equilibrium of topoisomerase II. However, in the presence of etoposide or 4'-(9-acridinylamino)methane-sulfon-m-anisidide, phosphorylation attenuated the ability of drugs to stabilize enzyme-DNA cleavage complexes. Levels of drug-induced DNA cleavage products decreased approximately 33% following phosphorylation of topoisomerase II by casein kinase II, approximately 17% following modification by protein kinase C, and approximately 50% following simultaneous phosphorylation of the enzyme by both kinases. This latter 50% reduction in DNA cleavage products correlated with an approximately 2-fold increase in the apparent first order rate constant for DNA religation mediated by simultaneously modified topoisomerase II. These results strongly suggest that the sensitivity of topoisomerase II toward antineoplastic drugs can be modulated by altering the phosphorylation state of the enzyme.
Cancer Res 1992 Apr 15
PMID:Phosphorylation of topoisomerase II by casein kinase II and protein kinase C: effects on enzyme-mediated DNA cleavage/religation and sensitivity to the antineoplastic drugs etoposide and 4'-(9-acridinylamino)methane-sulfon-m-anisidide. 131 38

Exposure of human ovarian cancer SW626 cell line to 0.08 mumol/l methotrexate or 25 mumol/l aphidicolin for 24 h caused no cytotoxicity but enhanced etoposide cytotoxicity. Methotrexate or aphidicolin treatment induced a reversible blockade at the beginning of S phase which was reversed upon drug removal with a consequent wave of synchronisation. The enhancement of etoposide cytotoxicity was not due to higher etoposide intracellular uptake in the methotrexate or aphidicolin-pretreated cells. The topoisomerase II content in methotrexate or aphidicolin pretreated SW626 cells was higher than in control cells assessed by western blotting or flow cytometry. The higher etoposide cytotoxicity observed after synchronization with methotrexate or aphidicolin was apparently unrelated to the number of drug-induced DNA-topoisomerase II complexes evaluated as DNA double strand breaks or DNA-protein crosslinks. These data support the view that etoposide-induced DNA-topoisomerase II complexes are more cytotoxic in cells which are in S-phase.
Eur J Cancer 1992
PMID:Potentiation of etoposide cytotoxicity against a human ovarian cancer cell line by pretreatment with non-toxic concentrations of methotrexate or aphidicolin. 131 31

This study shows that not only concanavalin A-stimulated proliferating lymphocytes but also unstimulated mouse splenic lymphocytes are sensitive to the topoisomerase II (topo II) inhibitor teniposide (VM-26). When unstimulated lymphocytes are pretreated with VM-26 for a 2-h period and are then incubated in drug-free medium, cell viability, as determined by trypan blue exclusion, decreases to 40% of the control by 6 h. The drug-treated cultures show two to three times the level of detergent soluble DNA than the control cultures and agarose gel electrophoresis of the soluble DNA shows the presence of oligonucleosomal-sized fragments, a feature considered to be a hallmark of apoptosis. Phase contrast microscopy, Hoechst staining for DNA, and immunofluorescence microscopy of various nuclear and cytoplasmic antigens (nucleolar fibrillarin, snRNP, ubiquitin, vimentin, tubulin) in the VM-26-treated cells characterize the morphological changes during apoptosis of these cells. The role of topo II as the mediator of the VM-26 effects is supported by pulsed field gel electrophoresis, which shows the typical topo II-induced cleavage of supercoiled DNA into loop-sized 300- and 50-kbp fragments. We conclude that the cancer chemotherapeutic agent VM-26 interacts with topo II and induces apoptosis in unstimulated lymphocytes.
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PMID:The topoisomerase II inhibitor teniposide (VM-26) induces apoptosis in unstimulated mature murine lymphocytes. 131 87

Poly(ADP-ribose) polymerase has been generally assumed to be involved in DNA repair. The level of the enzyme in various lung cancer cell lines was examined to determine if it is involved in drug resistance. Among nine cell lines of lung cancer tested, small-cell lung cancer lines, which showed higher sensitivity to cisplatin and etoposide, were unexpectedly found to contain significantly higher poly(ADP-ribose) polymerase activity than five non-small-cell lung cancer cell lines. This activity inversely correlated with IC50 values of lung cancer cell lines to etoposide, an inhibitor of topoisomerase II. The polymerase activity was also examined in several cisplatin-resistant variants of the cell lines. However, no difference was observed between parental and cisplatin-resistant cells. There was no significant relation between poly(ADP-ribose) polymerase activity and IC50 values for cisplatin and carboplatin. Although this enzyme was considered to play some role in the resistance to specific drugs, it might not be a critical factor in cisplatin-induced cytotoxicity.
J Cancer Res Clin Oncol 1992
PMID:Participation of poly(ADP-ribose) polymerase in the drug sensitivity in human lung cancer cell lines. 131 78

A novobiocin-resistant subline of WEHI-3B D+ murine monomyelocytic leukemia cells was developed by the continuous exposure of cells to this agent in vitro. Sensitive (WEHI-3B/S) and novobiocin-resistant (WEHI-3B/NOVO) sublines were cloned in vitro. WEHI-3B/NOVO cells were stable in the absence of novobiocin for more than 3 months, and the sensitive and resistant clones displayed the same growth rate, cell cycle distribution, cell size, DNA and protein content, and cloning efficiency. Novobiocin has been shown to compete with ATP for the ATP-binding site of topoisomerase II; therefore, intracellular ATP levels can influence the cellular sensitivity to novobiocin. High-performance liquid chromatographic analysis of total cell extracts demonstrated that no difference exists between WEHI-3B/S and WEHI-3B/NOVO cells in the content of ATP. Furthermore, exposure of both cell lines to novobiocin did not affect intracellular ATP levels. In addition to an approximately 2-fold level of resistance to novobiocin, the WEHI-3B/NOVO subline was also 7- and 11-fold cross-resistant to the topoisomerase II-targeted drugs, teniposide and etoposide (VP-16), respectively. A lower level of cross-resistance, comparable to that of novobiocin, was observed in WEHI-3B/NOVO cells for the intercalating topoisomerase II-reactive drugs, doxorubicin, 4'-(9-acridinylamino)methanesulfon-m-anisidide and aclacinomycin A, while the sensitivity to the cytotoxic action of the non-topoisomerase II-acting agents, camptothecin and vincristine, was not altered. After 3-6 h of exposure to 1 microM VP-16, WEHI-3B/S cells accumulated in the S and G2 + M phases of the cell cycle. Similar changes were detected in WEHI-3B/NOVO cells only after exposure to a 10-fold higher concentration of VP-16. Exposure to 150 microM novobiocin caused an accumulation of WEHI-3B/S cells in the G0-G1 phase of the cell cycle but did not affect the cell cycle distribution of WEHI-3B/NOVO cells, while camptothecin induced the same type and extent of changes in the cell cycle distribution of both cell lines. Although the WEHI-3B/NOVO subline appeared to be less responsive to the differentiation-inducing activity of novobiocin and teniposide, the capacity of WEHI-3B/NOVO cells to respond to the differentiation-inducing agent 13-cis-retinoic acid was not significantly different from that of WEHI-3B/S cells. A slight decrease in the accumulation of VP-16 occurred in the resistant cell line, which did not appear to be of sufficient magnitude to account for the 11-fold increase in the degree of resistance to this agent.(ABSTRACT TRUNCATED AT 400 WORDS)
Cancer Res 1992 May 15
PMID:Development and characterization of a WEHI-3B D+ monomyelocytic leukemia cell line resistant to novobiocin and cross-resistant to other topoisomerase II-targeted drugs. 131 27


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