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)

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.
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PMID:Potentiation of etoposide cytotoxicity against a human ovarian cancer cell line by pretreatment with non-toxic concentrations of methotrexate or aphidicolin. 131 31

Vaccinia virus DNA topoisomerase I forms a 3'-phosphoryl intermediate with duplex DNAs containing the conserved binding/cleavage motif 5'CCCTT decreases. Covalently bound enzyme is capable of transferring the incised DNA strand to a heterologous DNA acceptor containing a 5'OH terminus. Both intramolecular and intermolecular religation reactions are catalyzed. Intramolecular strand transfer occurs to the noncleaved strand of the DNA duplex and results in formation of a hairpin loop. Intermolecular religation to an exogenous DNA strand is favored over hairpin formation and requires the potential for base pairing between the acceptor and the noncleaved strand of the donor complex. As few as 4 potential base pairs are sufficient to support intermolecular transfer. These results in vitro are consistent with the proposal that vaccinia topoisomerase can catalyze sequence-specific strand transfer during genetic recombination in vivo (Shuman, S. (1991) Proc. Natl. Acad. Sci. U.S.A. 88, 10104-10108.).
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PMID:DNA strand transfer reactions catalyzed by vaccinia topoisomerase I. 131 32

DNase I-hypersensitivity of rat spermatogenic cells was analyzed 1) to establish overall patterns of hypersensitivity in individual cell types, 2) to correlate these patterns with known changes in chromatin organization and function, and 3) to provide a foundation for further analyses examining DNase I-hypersensitivity and the localization of specific genes during spermatogenesis. Parameters for in situ nick translation, using radioactive and fluorescent probes to visualize DNase I-hypersensitive regions (DHR), were established for fixed and sectioned testicular preparations, permeabilized cells, and isolated germ cell nuclei. As anticipated, the pattern of DHR changed in a cell-type specific manner during the course of spermatogenesis, reflective of known stage-dependent alterations in the composition and structure of both the chromatin and the nuclear lamina/matrix as well as changes in gene expression. DHR in preleptotene spermatocytes were primarily peripheral, while in pachytene spermatocytes they were localized along the condensed chromosomes. The pattern of DHR changed from "checkerboard" in steps 7-8 round spermatid nuclei to "lamellar" in steps 10-11 elongating spermatids. In steps 12-13 elongating spermatids. DHR were localized throughout the nuclei or in a graded manner--increasing from anterior to posterior and mirroring the pattern of chromatin condensation. However, unlike the case in other stages, DNA of steps 12-13 elongating spermatids was exquisitely sensitive to nick translation even in the absence of exogenous DNase I. In contrast to the labeling of earlier stages, steps 16-19 spermatids and mature spermatozoa did not demonstrate DNase I-hypersensitivity under any conditions employed. A variety of agents that interact with topoisomerase II and DNA (teniposide, novobiocin, ethidium bromide, and adenosine triphosphate) were tested to determine the basis for the unique sensitivity to nick translation of steps 12-13 elongating spermatids. None of the agents tested, however, affected this unique labeling. The sensitivity of steps 12-13 elongating spermatids to nick translation in the absence of exogenous nuclease indicators the presence of endogenous nicks, which may relieve torsional stress and aid rearrangement as the chromatin is packaged into a form characteristic of the mature spermatozoon.
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PMID:Localization of DNase I-hypersensitive regions during rat spermatogenesis: stage-dependent patterns and unique sensitivity of elongating spermatids. 131 43

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

Monoclonal antibodies raised against two isoforms (170 and 150/180 kDa) of DNA topoisomerase II showed distinct fluorescence patterns in HeLa cells in different moments of the cell cycle (C. Negri et al., 1992, Exp. Cell Res. 200, 452-459). The ultrastructural distribution of the 150/180-kDa isoform, which in immunofluorescence showed a localization into the nucleolar region, has been analyzed by electron microscopy with a gold-conjugated secondary antibody in HeLa and K562 cells. The results indicate that this isoform of the enzyme is exclusively localized in the nucleolus, mainly in the dense fibrillar component, while the nucleoplasm of interphase cells and the chromosomes of mitotic cells are completely negative. The antibody also reacts with the nucleolus of isolated nuclei and with the nucleolar remnant of purified nuclear matrices. A quantitative evaluation of the label distribution indicates that the percentage of label in the nucleolar remnant of isolated matrix is almost identical to that of the nucleolus in whole cells. The interaction with the insoluble proteins of the isolated nuclear matrix is also demonstrated by quantitative immunoblotting in which the MoAb specifically stains a unique band corresponding to the 150/180-kDa isoform of topoisomerase II. The localization of the 150/180-kDa isoform of topoisomerase II in the nucleolar remnant strongly suggests that it represents a structural element for the spatial organization and for the regulation of transcription of the ribosomal genes.
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PMID:The 180-kDa isoform of topoisomerase II is localized in the nucleolus and belongs to the structural elements of the nucleolar remnant. 131 89

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.
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PMID:Participation of poly(ADP-ribose) polymerase in the drug sensitivity in human lung cancer cell lines. 131 78

We have produced metaphase spindles and induced them to enter anaphase in vitro. Sperm nuclei were added to frog egg extracts, allowed to replicate their DNA, and driven into metaphase by the addition of cytoplasm containing active maturation promoting factor (MPF) and cytostatic factor (CSF), an activity that stabilizes MPF. Addition of calcium induces the inactivation of MPF, sister chromatid separation and anaphase chromosome movement. DNA topoisomerase II inhibitors prevent chromosome segregation at anaphase, demonstrating that the chromatids are catenated at metaphase and that decatenation occurs at the start of anaphase. Topoisomerase II activity towards exogenous substrates does not increase at the metaphase to anaphase transition, showing that chromosome separation at anaphase is not triggered by a bulk activation of topoisomerase II.
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PMID:Sister chromatid separation in frog egg extracts requires DNA topoisomerase II activity during anaphase. 131 85

A guanine-rich single-stranded DNA from the human immunoglobulin switch region was shown by Sen and Gilbert [Nature, (1988) 334, 364-366] to be able to self-associate to form a stable four-stranded parallel DNA structure. Topoisomerase II did not cleave the single-stranded DNA molecule. Surprisingly, the enzyme did cleave the same DNA sequence when it was annealed into the four-stranded structure. The two cleavage sites observed were the same as those found when this DNA molecule was paired with a complementary molecule to create a normal B-DNA duplex. These cleavages were shown to be protein-linked and reversible by the addition of salt, suggesting a normal topoisomerase II reaction mechanism. In addition, an eight-stranded DNA molecule created by the association of a complementary oligonucleotide with the four-stranded structure was also cleaved by topoisomerase II despite being resistant to restriction endonuclease digestion. These results suggest that a single strand of DNA may possess the sequence information to direct topoisomerase II to a binding site, but the site must be base paired in a proper manner to do so. This demonstration of the ability of a four-stranded DNA molecule to be a substrate for an enzyme further suggests that these DNA structures may be present in cells.
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PMID:Eukaryotic topoisomerase II cleavage of parallel stranded DNA tetraplexes. 131 62

Anthracyclines, podophyllotoxines, N-[4-(9-acridinylamino)-3-methoxyphenyl]-methanesulphoneamide (amsacrine, INN) and mitoxantrone are cytostatic agents which exert several molecular effects in the cell. Among these, the inhibition of the nuclear enzyme topoisomerase II appears to be instrumental in cytotoxicity. Tumour cells can acquire resistance to these drugs by several molecular mechanisms. The alteration of target protein sensitivity is one of these. In the present study, we directly measured the inhibition of topoisomerase II by cytostatic drugs. The procedure included isolation of cell nuclei, extraction of nuclear proteins, fractionation of nuclear extracts by anion exchange chromatography and measurement of the catalytic activity in the presence of various concentrations of the drugs. All steps can be performed within one day and require a minimum sample of 10(7)-10(8) malignant cells. We used cell samples from a multidrug-resistant subclone of the human promyelocytic cell line HL-60 to study the feasibility of the approach. We found an increased resistance of topoisomerase II to etoposide and amsacrine, which correlates with the increased cellular resistance to these drugs as determined by exposure in short term liquid cultures.
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PMID:The measurement of nuclear topoisomerase II inhibition in vitro: a possible tool for detecting resistance on a subcellular level in haematopoietic malignancies. 131 75

We have purified a topoisomerase activity from broccoli (Brassica oleracea var. italica) to near homogeneity. The enzyme is an 80 kDa monomer as judged by gel filtration chromatography and SDS gel electrophoresis, though it may represent a proteolytic fragment of a larger protein. The enzyme is capable of removing both negative and positive supercoils in steps of one, does not absolutely require Mg2+, is only very weakly stimulated by NaCl, is inhibited by camptothecin, and cross-reacts with an antibody directed against human DNA topoisomerase I. These properties identify the enzyme as a eukaryotic type I topoisomerase.
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PMID:Purification and properties of DNA topoisomerase I from broccoli. 131 91


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