EC:5.99.1.2 - FACTA Search

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)

Previous studies using the mutant Chinese hamster ovary cell line VpmR-5 indicate that its resistance to epipodophyllotoxins and intercalating agents is likely to be mediated through a qualitative change in type II topoisomerase that confers resistance to drug-stimulated DNA cleavage activity. In a further investigation of the genetic basis of drug resistance in VpmR-5 cells, we fused a hypoxanthine-guanine phosphoribosyl transferase-deficient subline of VpmR-5 (Vtgm-6) with normal human lymphocytes and analyzed the resultant hybrid lines (HL) for altered drug sensitivity. In all, 3 of 16 hybrid clones exhibited partial reconstitution of sensitivity to etoposide, mitoxantrone, doxorubicin, and 5-iminodaunorubicin while retaining complete resistance to m-AMSA. However, enhanced sensitivity to drug-induced DNA cleavage activity was observed only for etoposide. Biochemical and molecular-marker analysis of the hybrids failed to identify human chromosome 17 (the provisional location of TOP2) or any other human chromosome that is consistently and uniquely associated with drug sensitivity. We therefore sought to verify the chromosomal assignment of TOP2 by Southern blot hybridization of TOP2 cDNA on a human hybrid mapping panel and confirmed its location on chromosome 17. However, no hybridizing sequence to the TOP2 cDNA was found in any of the 16 Vtgm-6 hybrid lines. Efforts to select more directly for human chromosome 17 VpmR-5 hybrids using microcell fusion of mouse A9 cells carrying human 17 linked to pSV2neo were unsuccessful. None of the five hybrid clones thus obtained had 17q markers, including the gene for TOP2. Although the mechanism underlying partial reversion to a drug-sensitive phenotype in the original Vtgm-6 hybrid lines has yet to be defined, the data obtained in these lines indicate that anthracycline- and anthracenedione-induced cytotoxic effects can be dissociated from DNA cleavage activity. This suggests that pathways distal to cleavable-complex formation or, alternatively, independent of interactions with topoisomerase II that involve other intracellular targets are important in mediating the cytotoxicity produced by these drugs.
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PMID:Dissociation of cytotoxicity and DNA cleavage activity induced by topoisomerase II-reactive intercalating agents in hamster-human somatic cell hybrids. 133 69

Acute promyelocytic leukemia (APL) is characterized by a specific chromosome translocation t(15;17). Recently, using molecular biology techniques, a number of laboratories have demonstrated that the gene coding for the retinoic acid receptor alpha (RARA), normally located on chromosome 17, is disrupted by the t(15;17) and fused with the PML gene on chromosome 15. The chromosome 17 breaks were mapped consistently within the second intron of the RARA gene while the chromosome 15 breaks were clustered in two limited regions within the PML gene. Molecular cloning and sequence analysis of the PML gene demonstrated a complex splicing pattern and this gene may encode a transcription factor. Different isoforms of the PML-RARA fusion transcripts were discovered which are produced as a result of distinct PML gene rearrangements. Sequence analysis of the reciprocal products of the translocation t(15;17) in some APL cases suggested the implication of topoisomerase II in mediating the DNA recombination. The RT/PCR procedure has been established to characterize the expression patterns of the PML-RARA fusion gene and to detect minimal residual disease (MRD). The biological activity of the PML-RARA fusion gene and its isoforms should be further explored.
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PMID:RARA and PML genes in acute promyelocytic leukemia. 133 47

Acridine and its derivatives are planar polycyclic aromatic molecules which bind tightly but reversibly to DNA by intercalation, but do not usually covalently interact with it. Acridines have a broad spectrum of biological activities, and a number of derivatives are widely used as antibacterial, antiprotozoal and anticancer drugs. Simple acridines show activity as frameshift mutagens, especially in bacteriophage and bacterial assays, by virtue of their intercalative DNA-binding ability. Acridines bearing additional fused aromatic rings (benzacridines) show little activity as frameshift mutagens, but interact covalently with DNA following metabolic activation (forming predominantly base-pair substitution mutations). Compounds where the acridine acts as a carrier to target alkylating agents to DNA (e.g. the ICR compounds) cause predominantly frameshift as well as base-pair substitution mutations in both bacterial and mammalian cells. Nitroacridines may act as simple acridines or (following nitro group reduction) as alkylating agents, depending upon the position of the nitro group. Acridine-based topoisomerase II inhibitors, although frameshift mutagens in bacteria and bacteriophage systems, are primarily chromosomal mutagens in mammalian cells. These mutagenic activities are important, since the compounds have considerable potential as clinical antitumour drugs. Although evidence suggests that simple acridines are not animal or human carcinogens, a number of the derived compounds are highly active in this capacity.
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PMID:The genetic toxicology of acridines. 188 2

Bacteriophage T4 DNA topoisomerase gene 60 contains a 50 nucleotide untranslated region within the coding sequence of its mRNA. Translational bypass of this sequence by elongating ribosomes has been postulated for the mode of synthesis of an 18 kd polypeptide specified by the split coding segments. Ribosome bypass of the untranslated region also occurs when a segment of gene 60 is fused to lacZ and expressed in E. coli. The efficiency of bypass in these gene 60-lacZ fusions approaches 100%. Here, mutations that delete, insert, or substitute nucleotides from gene 60-lacZ fusions are examined. Essential features necessary for high level gap bypass emerging from this analysis are a cis-acting nascent peptide sequence, a short duplication bordering the gap, and a stop codon contained in a stem-loop structure at the 5' junction of the gap.
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PMID:A nascent peptide is required for ribosomal bypass of the coding gap in bacteriophage T4 gene 60. 216 64

Several fused tri- and tetracyclic quinolines (I and II) with [2-methoxy-4-[(methylsulfonyl)amino]phenyl]amino or [3-(N,N-dimethylamino)propyl]amino side chains were prepared, and their DNA intercalative properties, KB cytotoxicity, antitumor activity (P388 leukemia), and ability to induce topoisomerase II dependent DNA cleavage were investigated. Some compounds having both intercalative ability and KB cytotoxicity were found to be inactive in vivo. However, a positive correlation was seen between the ability to induce topoisomerase II dependent DNA cleavage and antitumor activity in vivo. The indeno- (13a), benzofuro- (21a), and benzothieno- (22a) quinoline derivatives exhibited potent antitumor activities in vitro and in vivo, comparable to those of m-AMSA. They also intercalate DNA and induce topoisomerase II dependent DNA cleavage. Extended screening of 13a showed it to be active against solid tumors such as M5076 sarcoma, B16 melanoma, and colon 38 carcinoma.
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PMID:Synthesis and antitumor activity of fused tetracyclic quinoline derivatives. 1. 254 58

The construct containing the structural gene of the type II DNA topoisomerase of Drosophila melanogaster fused to the sequence of the chloroplast transit peptide directed by the 35 S promoter was produced on the basis of the binary vector Bin 19. The construct was introduced into Nicotiana tabacum plants by Agrobacterium-mediated transformation. The integration of the construct into genomic DNA was demonstrated by PCR and Southern blot hybridization. Expression of the chimeric gene at the transcription level was studied by Northern blotting. The protein produce of the expression was identified in chloroplasts by Western blot hybridization with polyclonal anti-type II Drosophila topoisomerase antibodies.
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PMID:[The import of DNA topoisomerase type II from Drosophila melanogaster into the chloroplasts of transgenic Nicotiana tabacum plants]. 770 3

Human cells express two genetically distinct isoforms of DNA topoisomerase II, alpha and beta, which catalyze ATP-dependent DNA strand passage and are an important antitumor drug target. Here we report for the first time the successful overexpression of human topoisomerase II beta in yeast by cloning a topoisomerase II beta cDNA in a yeast shuttle vector under the control of a galactose-inducible promoter. Recombinant human topoisomerase II beta (residues 46-1621 fused to the first 5 residues of yeast topoisomerase II) was purified to homogeneity, yielding an enzymatically active polypeptide in sufficient quantity to allow analysis of its domain structure and comparison with that of recombinant human topoisomerase II alpha. Partial digestion of beta with either trypsin or protease SV8 generated fragments of approximately 130, 90, 62, and 45-50 kDa, arising from cleavage at three limited and discrete regions of the protein (A, B, and C) indicating the presence of at least four structural domains. Recombinant human topoisomerase II alpha and beta induced DNA breakage which was promoted by a variety of agents. Isoform differences in drug-induced DNA breakage were observed. These studies of human topoisomerase II beta in concert with alpha should aid the determination of their individual roles in cancer chemotherapy and should facilitate the design, targeting, and testing of cytotoxic antitumor agents.
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PMID:Expression, domain structure, and enzymatic properties of an active recombinant human DNA topoisomerase II beta. 779 75

The sequence specificity of topoisomerase-II-mediated DNA cleavage, stimulated by 2-methyl-9-hydroxy ellipticinium and 4',5,7-trihydroxyflavone (genistein) was investigated by sequencing analysis of DNA cleavage sites and molecular modeling techniques. The former drug exhibits a marked preference for a T base at the position immediately preceding the cleavage site (-1). The latter shares the preference for the same base, with an additional preference for a thymine at position +1. The cleavage intensity patterns in the presence of the two drugs differ considerably. From a conformational point of view, ellipticinium and genistein exhibit similar overall shape and dimensions. However, the fused ring system in the former generates a planar structure whereas the single bond, connecting the two aromatic portions in the latter, allows internal rotation. The most stable conformation of genistein corresponds to a deviation of about 40 degrees from planarity. A computer-assisted analysis was carried out to compare the steric and electrostatic properties of the two compounds. Two types of preferred (energetically almost degenerate) alignment for the two molecules were found. One corresponds to overlapping of the 9-hydroxyl containing ring of ellipticinium with the 4'-hydroxyphenyl moiety of genistein, the other envisages the same moiety of ellipticine superimposed to the hydroxyl-benzopyrone portion of genistein. The structural similarities of the test drugs might account for the common preference for stimulation of DNA cleavage at position +1, whereas the different possible arrangements of genistein in the cleavable complex could explain both the additional +1 specificity exhibited by this compound and the differences in cleavage intensity patterns observed in comparison to ellipticinium.
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PMID:Conformational properties of topoisomerase II inhibitors and sequence specificity of DNA cleavage. 788 May 48

We have characterized tandem duplications in the rII regions of phage T4. The rII deletion r1589 blocks only the function of the rIIA cistron, although it extends into the B cistron. Another rII deletion, r1236, blocks the function of the rIIB cistron and overlaps r1589. When a cross is made between r1589 and r1236, true rII+ progeny cannot form. Instead, anomalous phenotypically rII+ phages are detected carrying an rII region from each parent. Analyses of nucleotide sequences of the recombination junctions indicate that recombination takes place between short regions of homology (from 2 to 10 bp). Open reading frames of the recombinants deduced from the nucleotide sequences reveal that they contain a normal rIIA cistron and one of a variety of fused, duplicated rIIB cistrons. The T4 uvsX and uvsY genes, which participate in homologous recombination, are involved in this duplication formation. T4 DNA topoisomerase is encoded by genes 39, 52 and 60. Mutations in 52 and 60 reduced the frequency of such duplications, but mutations in gene 39 and some in gene 52 did not. Hence, the effects of topoisomerase mutations are allele-specific. Models are proposed in which these proteins are involved in tandem duplication.
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PMID:Effects of uvsX, uvsY and DNA topoisomerase on the formation of tandem duplications of the rII gene in bacteriophage T4. 791 30

In furtherance of our SAR study on the chemistry and antitumor activity of fused nitrogen heteroaromatic compounds, a series of linear, methyl-substituted derivatives of 5H- and 6H-indolo[2,3-b]quinolines were synthesized according to the modified Graebe-Ullmann reaction. To establish the relationship between the physicochemical and biological activities of indolo[2,3-b]quinolines, their lipophilic properties, cytotoxic and antimicrobial activity, and ability to induce topoisomerase II dependent pSP65 DNA cleavage in vitro were investigated. We found that the antimicrobial and cytotoxic activity of indolo[2,3-b]quinolines was strongly influenced by the position, and the number of methyl substituents and the presence of methyl group at pyridine nitrogen was essential for the cytotoxicity of these compounds. All indolo[2,3-b]quinolines belonging to the 5H series, i.e., bearing a methyl group on the pyridine nitrogen, showed significant activity against procaryotic and eucaryotic organisms. They inhibited the growth of Gram-positive bacteria and pathogenic fungi at MIC range 3 x 10(-2) to 2.5 x 10(-1) mumol/mL, displayed cytotoxicity against KB cells ID50 in the range 2 x 10(-3) to 9 x 10(-3) mumol/mL, and stimulated the formation of calf thymus topoisomerase II mediated DNA cleavage at concentration between 0.4 and 10 microM. None of the indolo[2,3-b]quinolines belonging to the 6H series, i.e., lacking a methyl group on the pyridine nitrogen, was active in analogous tests. Of the investigated compounds, the most active was 2,5,9,11-tetramethyl-5H-indolo[2,3-b]quinoline, a compound bearing the highest number of symmetrically distributed methyl groups. The interaction of indolo[2,3-b]quinolines with DNA was studied by measuring the increase of calf thymus DNA denaturating temperature (Tm). The delta Tm values for the 5H series were found to be about 10 times as high as those for the 6H compounds. Indolo[2,3-b]quinolines with the highest number of methyl groups had the greatest contribution to the increase in the Tm of calf thymus DNA. The values of delta Tm reached 19 degrees C and 1.6 degrees C for the most substituted compounds of both series.
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PMID:Synthesis and structure-activity relationship of methyl-substituted indolo[2,3-b]quinolines: novel cytotoxic, DNA topoisomerase II inhibitors. 793 79

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