Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:5.99.1.3 (topoisomerase)
 9,911 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A topoisomerase (nicking-closing enzyme) has been isolated from rat liver mitochondria. It has purified by double-stranded DNA-cellulose chromatography approximately 50,000-fold, based on the crude mitochondrial extract. It possesses a minimum specific activity of 1.9 x 10(5) units/mg. The enzyme has been shown to be distinctly mitochondrial, differentiated from the nuclear topoisomerase by its sensitivity to the intercalating drug, ethidium bromide, and to the non-intercalating trypanocidal drug, Berenil.
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PMID:Mitochondria contain a distinct DNA topoisomerase. 22 16

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

The clinical phenotype of Werner's syndrome (WS) includes short stature, premature cataracts, skin atrophy, osteoporosis, graying and loss of hair, neoplasia, diabetes mellitus, and arteriosclerosis. Cultured cells from patients with this autosomal recessive disorder exhibit chromosomal instability and a markedly reduced replicative lifespan and growth rate. To elucidate the cell cycle alterations associated with the growth deficit, we continuously labeled lymphoid cell lines from five WS patients and from four healthy adult controls with 5-bromodeoxyuridine. Bivariate Hoechst 33258/ethidium bromide flow cytometry revealed a 2.4-h prolongation in the minimal duration of the S phase of WS cells (P less than 0.005). Moreover, the fraction of proliferating cells irreversibly arrested in the S phase (5.4% vs 1.4% in controls) was significantly elevated in WS (P less than 0.001). Other cell cycle compartments were not significantly affected in WS cell lines. As a partial test of the hypothesis that the WS phenotype is due to a defect in DNA topoisomerase I (topo I) or DNA topoisomerase II (topo II) we exposed lymphoid cells from a healthy control to the topo I inhibitor camptothecin or to the topo II inhibitor 4'-(9-acridinylamino)methanesulfon-m-anisidine. The cell kinetic alterations elicited by these compounds differed from that exhibited by untreated WS patients. Thus, a primary defect in topo I or II is unlikely in WS. Our cell cycle results, however, provide important evidence that the biochemical genetic lesion is in fact expressed in lymphoblastoid cell lines, the most readily available cells from such subjects.
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PMID:Impaired S-phase transit of Werner syndrome cells expressed in lymphoblastoid cell lines. 132 51

Fifteen specific inhibitors of DNA topoisomerases I and II were used to elucidate whether these enzymes participate in the excision repair of UV-induced DNA damage, monitoring DNA repair synthesis in confluent saponin-permeabilized human fibroblasts. To achieve a sufficient degree of accuracy dose--response experiments were performed, analysed by linear regression, and the concentrations at which repair activity was reduced to 50% were calculated and designated K50. Camptothecin, a specific inhibitor of topoisomerase I did not markedly diminish DNA repair synthesis. Similarly, when combined with topoisomerase II inhibitors [nalidixic acid, oxolinic acid, 4'-demethylepipodophyllotoxin-9-(4,6-O-ethylidene-beta-D-glucop yra noside) (etoposide), 4'-demethylepipodophyllotoxin-thenylidene-beta-D-glucoside (teniposide), 1,4-dihydroxy-5,8-bis ((2-[(2-hydroxyethyl)amino]ethyl)amino)-9,10-anthracenedione (mitoxantrone), 5-(N-phenyl-carboxamido)-2-thiobarbituric acid (merbarone) or 4'-(9-acridinylamino)methanesulfon-m-anisidide (m-AMSA)], it did not lower K50 values determined for topoisomerase II-specific drugs in separate experiments. The effects observed can be classified according to the mechanism of action the inhibitors exhibit. (i) Novobiocin and coumermycin, inhibitors of the ATPase subunit of topoisomerase II, completely reduced DNA repair synthesis. (ii) Inhibition of repair was also found for ethidium bromide, quinacrine and distamycin, drugs known to modify the DNA substrate by intercalation or binding to the DNA minor groove. (iii) Inhibitors acting through intercalation and, simultaneously, binding to the cleavable DNA-topoisomerase complex (m-AMSA, mitoxantrone, doxorubicin and daunorubicin) also suppressed reparative DNA synthesis. (iv) Only small effects were observed for etoposide, nalidixic acid and oxolinic acid, whereas teniposide caused marked inhibition of DNA repair synthesis. (v) Merbarone, a novel type of topoisomerase II inhibitor, blocked UV-induced DNA repair drastically. The results are best explained by assuming that in UV-irradiated human fibroblasts the 180 kDa form of topoisomerase II is the main target enzyme for inhibitors which suppressed DNA excision repair and that this isozyme is involved in steps preceding repair-specific DNA incision.
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PMID:The function of DNA topoisomerases in UV-induced DNA excision repair: studies with specific inhibitors in permeabilized human fibroblasts. 133 77

Patients with the autosomal recessive disorder Fanconi anemia (FA) present with progressive pancytopenia, skeletal abnormalities and a predisposition to leukemia. In addition to elevated rates of spontaneous chromosome aberrations occurring in cultured fibroblasts and lymphoblastoid cell lines, an increased susceptibility to DNA cross-linking agents and oxygen has been found. To explain this hypersensitivity to clastogenic agents a defective function of DNA topoisomerase I or II could be invoked, a suggestion which is supported by the co-localization of the DNA topoisomerase I gene and a putative FA gene to chromosome 20q. In order to investigate the function of DNA topoisomerases in FA, the sensitivity of lymphoid B-cell lines derived from FA patients and control cell lines to inhibitors of DNA topoisomerases I and II was compared using continuous bromodeoxyuridine labeling and bivariate Hoechst/ethidium bromide flow cytometry. Both agents inhibited cell proliferation mainly by arresting cells in the G2 phase of the cell cycle. However, no difference was found in sensitivity towards both DNA topoisomerase inhibitors between control and FA cell lines.
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PMID:Cell cycle effects of the DNA topoisomerase inhibitors camptothecin and m-AMSA in lymphoblastoid cell lines from patients with Fanconi anemia. 138 35

Teniposide [4'-demethylepipophyllotoxin-4-(4,6-O-thenylidene-beta-D- glucopyranoside) (VM-26)] is a cancer chemotherapeutic drug with a high target specificity for DNA topoisomerase II. This agent induces repairable protein-bridged double-strand DNA breaks, which have been correlated with cytotoxicity, but high concentrations of VM-26 also induce irreversible DNA degradation and apoptotic cell death. It is not known whether this degradation occurs uniformly throughout the genome or in a gene-specific manner. To answer this question, DNA was isolated from HL-60 promyelocytic leukemia cells exposed to 5 microM VM-26 for varying periods of up to 12 h. Nucleosomal "ladders" on 2.0% agarose gels stained with ethidium bromide were detectable after 3 h of exposure, indicative of apoptosis. Gene-specific DNA degradation was investigated by Southern blot analysis. The genes for 18S rRNA and glucose-6-phosphate dehydrogenase were representatives of constitutively expressed (i.e., "housekeeping") genes. The proto-oncogenes c-myc, c-Ha-ras, and bcl-2 were examined as examples of other transcriptionally active genes, while transcriptionally inactive genes in HL-60 cells were studied by probing for the immunoglobulin heavy chain joining region and lambda light chain constant region genes. The rates of DNA degradation, and its extent after 12 h, were similar for all nuclear genes studied. However, there was striking resistance of mitochondrial DNA to endonucleolytic degradation. These data demonstrate that VM-26 can elicit a widespread degradative process which affects nuclear but not mitochondrial DNA.
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PMID:Teniposide induces nuclear but not mitochondrial DNA degradation. 159 97

The partial amino acid sequence of p140 calf thymus DNA topoisomerase II was determined by analysis of cyanogen bromide peptides. Five peptides were aligned and shared extensive homology with sequences derived from cDNA clones for the human topoisomerase II isoenzyme forms. Less homology was seen with the Drosophila, yeast and bacterial type II enzymes. Calf and human enzymes shared epitopes allowing isolation of a cDNA clone to human topoisomerase II isoenzyme alpha. Our results indicate that calf thymus p140 topoisomerase II is an active N-terminal proteolytic fragment of the native p180 enzyme and demonstrate that mammalian type II enzymes exhibit close sequence similarity.
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PMID:Structure and partial amino acid sequence of calf thymus DNA topoisomerase II: comparison with other type II enzymes. 169 76

The specificities of the DNA repair enzyme O6-alkylguanine-DNA alkyltransferase from brain and liver cells of the chick embryo and of DNase I were demonstrated in vitro by their response to substrate DNA pretreated with monofunctional alkylating agents of different O6-guanine alkylating ability and some antineoplastic agents. Treatment of DNA with ethidium bromide, Hoechst 33258, doxorubicin, Fe2+/bleomycin, and suramin resulted in a dose-dependent diminution of alkyltransferase activity (DE50 approximately 5 micrograms/ml, 15 micrograms/ml, 5 micrograms/ml, 5 micrograms/ml, 100 micrograms/ml, respectively). Apart from bleomycin, comparable results were obtained with DNase I. Thermal denaturation of the substrate DNA reduced both alkyltransferase and DNase I activity. No effect was seen with X-irradiation. Cisplatin decreased only DNase I activity. Some topoisomerase II and/or gyrase inhibitors remained without significant effects on the alkyltransferase reaction whereas DNA catabolism by DNase I was diminished in a dose-dependent manner (DE50 between 6.5 and 19 micrograms/ml).
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PMID:Inhibition of O6-alkylguanine-DNA alkyltransferase and DNase I activities in vitro by some alkylating substances and antineoplastic agents. 172 Jul 84

Pentamidine, diminazene aceturate (Berenil), isometamidium chloride (Samorin), and ethidium bromide, which are important antitrypanosomal drugs, promote linearization of Trypanosoma equiperdum minicircle DNA (the principal component of kinetoplast DNA, the mitochondrial DNA in these parasites). This effect occurs at therapeutically relevant concentrations. The linearized minicircles are protease sensitive and are not digested by lambda exonuclease (a 5' to 3' exonuclease), indicating that the break is double stranded and that protein is bound to both 5' ends of the molecule. The cleavage sites map to discrete positions in the minicircle sequence, and the cleavage pattern varies with different drugs. These findings are characteristic for type II topoisomerase inhibitors, and they mimic the effects of the antitumor drug etoposide (VP16-213, a semisynthetic podophyllotoxin analog) on T. equiperdum minicircles. However, the antitrypanosomal drugs differ dramatically from etoposide in that they do not promote detectable formation of nuclear DNA-protein complexes or of strand breaks in nuclear DNA. Selective inhibition of a mitochondrial type II topoisomerase may explain why these antitrypanosomal drugs preferentially disrupt mitochondrial DNA structure and generate dyskinetoplastic trypanosomes (which lack mitochondrial DNA).
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PMID:Selective cleavage of kinetoplast DNA minicircles promoted by antitrypanosomal drugs. 215 80

Type II topoisomerase has been purified from mouse FM3A cells by using P4 phage knotted DNA as a substrate. Analysis of the purified enzyme by sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed two bands of apparent molecular masses of 167 and 151 kDa. Partial digestion of the two bands with Staphylococcus aureus V8 protease indicated that the two polypeptides were structurally related. The enzyme required ATP and Mg2+ for activity. dATP could substitute for ATP, and ITP was slightly effective at 5-10 mM. The activity was sensitive to 4'-(9-acridinylamino)methanesulfon-m-anisidide (m-AMSA), coumermycin, and ethidium bromide. A protein kinase activity was detected in the partially purified topoisomerase II fraction, and this protein kinase was further purified. The protein kinase phosphorylated the purified topoisomerase II, and the phosphorylation of topoisomerase II by the kinase increased the activity by 8.6-fold over that of the unmodified enzyme. The treatment of the purified topoisomerase II with alkaline phosphatase abolished the enzyme activity almost completely, and the treatment of the dephosphorylated topoisomerase II with the protein kinase restored the enzyme activity. The protein kinase activity was not stimulated by Ca2+ or cyclic nucleotides, and the aminoacyl residue phosphorylated by the kinase was serine. Enzymatic properties of the kinase were very similar to those of the kinase reported to be tightly associated with the Drosophila topoisomerase II [Sander, M., Nolan, J. M., & Hsieh, T.-S. (1984) Proc. Natl. Acad. Sci. U.S.A. 81, 6938-6942]. The immunoprecipitation of nuclear extracts prepared from 32P-labeled cells with anti-mouse topoisomerase II antiserum indicated that DNA topoisomerase II existed in mouse cells as a phosphoprotein.
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PMID:Purification and characterization of type II DNA topoisomerase from mouse FM3A cells: phosphorylation of topoisomerase II and modification of its activity. 215 52


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