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)

Gene CBP codes for a transcriptional coactivator, which can interact with many transcriptional factors. It modifies the process of transcription stimulated by these factors by specific binding to RNA polymerase II holoenzyme or by histone acetylation. CBP gene mutation is the molecular cause of autosomal dominant genetic disease called Rubinstein-Taybi syndrome that is manifested by mental and growth retardations, by typical face malformations and broad thumbs and broad big toes. The CBP gene can be affected by the t(8;16)(p11;p13.3) translocation resulting in production of the MOZ/CBP chimeric protein and in induction of acute myeloblastic leukaemia. Therapy using topoisomerase II inhibitors can induce the t(11;16)(q23;13.3) translocation causing acute myeloid or lymphoid leukaemia or myelodysplasia through production of the MLL/CBP protein chimera.
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PMID:[Clinical sequelae of mutation of the CBP gene]. 1074 38

Chromatin remodelling complexes containing the nucleosome-dependent ATPase ISWI were first isolated from Drosophila embryos (NURF, CHRAC and ACF). ISWI was the only common component reported in these complexes. Our purification of human CHRAC (HuCHRAC) shows that ISWI chromatin remodelling complexes can have a conserved subunit composition in completely different cell types, suggesting a conserved function of ISWI. We show that the human homologues of two novel putative histone-fold proteins in Drosophila CHRAC are present in HuCHRAC. The two human histone-fold proteins form a stable complex that binds naked DNA but not nucleosomes. HuCHRAC also contains human ACF1 (hACF1), the homologue of Acf1, a subunit of Drosophila ACF. The N-terminus of mouse ACF1 was reported as a heterochromatin-targeting domain. hACF1 is a member of a family of proteins with a related domain structure that all may target heterochromatin. We discuss a possible function for HuCHRAC in heterochromatin dynamics. HuCHRAC does not contain topoisomerase II, which was reported earlier as a subunit of Drosophila CHRAC.
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PMID:HuCHRAC, a human ISWI chromatin remodelling complex contains hACF1 and two novel histone-fold proteins. 1088 Apr 50

Anthracyclines exert antitumor activity by stimulating site-selective DNA cleavage by topoisomerase II (top2). DNA cleavage sites stimulated by two anthracycline analogues, dh-EPI and da-IDA, were investigated at the histone gene cluster of cultured Drosophila Kc cells. The two agents stimulated analogue-specific patterns of double-stranded DNA cleavage in Kc cell chromatin. Analyses of 47 base sequences of dh-EPI sites showed that the analogue largely followed the in vitro selectivity rule, the requirement of (5')TA at 3' ends of cleaved strands. da-IDA was more selective than dh-EPI, and thus fewer sites could be collected. Nevertheless, base sequences were consistent with its in vitro base preferences. DNA cleavage was then studied in vitro with Drosophila and human top2 isoforms. The tested drugs stimulated distinct in vitro patterns that corresponded to the in vivo patterns. Human top2alpha promoted cleavage patterns that were much more similar to those of Drosophila top2 (both in vitro and in vivo) than human top2beta. Moreover, da-IDA showed a marked site-dependent preference for human top2beta. Thus, DNA site selection in vivo is different for the test anthracyclines, and together with a degree of beta-form specificity, may affect drug activity in human cells.
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PMID:In vivo site specificity and human isoenzyme selectivity of two topoisomerase II-poisoning anthracyclines. 1091 49

Type I and type II DNA-topoisomerases are essential enzymes that mediate replication, transcription, recombination, and mitosis in multicellular eukaryotes but the extent of their interchange for specific reactions in vivo is controversial. Expression patterns for topoisomerase I and topoisomerase II during the embryogenesis of Drosophila melanogaster were compared with patterns of DNA replication and expression of the histone genes. In late oogenesis the maternally supplied top2 mRNA was evenly distributed throughout the egg with elevated levels at the posterior tip, a pattern that is maintained in syncytial blastoderm embryos. During gastrulation, top2 mRNA became differentially localized only to regions of DNA replication, including new expression in the gonads preceding mitosis/meiosis. Significantly higher levels of top2 mRNA were found in mitotic compared to endoreplicating tissues. The total histone mRNA was exclusively associated with DNA replication but, in contrast to top2 mRNA, mitotic and endoreplicating cells contained similar expression levels with no expression in the gonads. Striking differences exist between the distribution of the top2 mRNA and topoisomerase II protein. The protein localizes to all evolving nuclei where it persists throughout embryogenesis. A high level of top1 mRNA transcript was present without differential tissue distribution throughout embryogenesis.
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PMID:Developmental regulation of DNA-topoisomerases during Drosophila embryogenesis. 1113 35

The chromatin accessibility complex (CHRAC) was originally defined biochemically as an ATP-dependent 'nucleosome remodelling' activity. Central to its activity is the ATPase ISWI, which catalyses the transfer of histone octamers between DNA segments in cis. In addition to ISWI, four other potential subunits were observed consistently in active CHRAC fractions. We have now identified the p175 subunit of CHRAC as Acf1, a protein known to associate with ISWI in the ACF complex. Interaction of Acf1 with ISWI enhances the efficiency of nucleosome sliding by an order of magnitude. Remarkably, it also modulates the nucleosome remodelling activity of ISWI qualitatively by altering the directionality of nucleosome movements and the histone 'tail' requirements of the reaction. The Acf1-ISWI heteromer tightly interacts with the two recently identified small histone fold proteins CHRAC-14 and CHRAC-16. Whether topoisomerase II is an integral subunit has been controversial. Refined analyses now suggest that topoisomerase II should not be considered a stable subunit of CHRAC. Accordingly, CHRAC can be molecularly defined as a complex consisting of ISWI, Acf1, CHRAC-14 and CHRAC-16.
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PMID:Acf1, the largest subunit of CHRAC, regulates ISWI-induced nucleosome remodelling. 1144 19

In the nucleus of the cell, core RNA polymerase II (pol II) is associated with a large complex called the pol II holoenzyme (holo-pol). Transcription by core pol II in vitro on nucleosomal templates is repressed compared with that on templates of histone-free naked DNA. We found that the transcriptional activity of holo-pol, in contrast to that of core pol II, is not markedly repressed on chromatin templates. We refer to this property of holo-pol as chromatin-dependent coactivation (CDC). Here we show that DNA topoisomerase IIalpha is associated with the holo-pol and is a required component of CDC. Etoposide and ICRF-193, specific inhibitors of topoisomerase II, blocked transcription on chromatin templates, but did not affect transcription on naked templates. Addition of purified topoisomerase IIalpha reconstituted CDC activity in reactions with core pol II. These findings suggest that transcription on chromatin templates results in the accumulation of superhelical tension, making the relaxation activity of topoisomerase II essential for productive RNA synthesis on nucleosomal DNA.
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PMID:DNA topoisomerase IIalpha is required for RNA polymerase II transcription on chromatin templates. 1157 92

Interferon regulatory factor 7 (IRF-7) plays an important role in innate immunity, where, together with IRF-3, it controls the expression of interferon A/B genes as well as chemokine RANTES (regulated on activation normal T cell expressed and secreted). Previously, we characterized human IRF-7 promoter and showed that an interferon-stimulated response element site in the first intron binds interferon-stimulated gene factor 3 (ISGF3) and confers the response to interferon. Here we report the stimulation of IRF-7 expression by 12-O-tetradecanoylphorbol-13-acetate (TPA) and tumor necrosis factor alpha (TNFalpha) in human peripheral blood monocytes. Using promoter analysis in combination with electrophoretic mobility shift assays, we have demonstrated that an NFkappaB site located next to the TATA box, binds p50 and p65 heterodimer and is required for the induction of the IRF-7 gene by TPA and TNFalpha. In addition, we report stimulation of IRF-7 gene expression by topoisomerase II (TOPII) inhibitors. We show by chromatin immunoprecipitation assay that treatment with the TOPII inhibitor etoposide induces association of acetylated histone 3 with the promoter of IRF-7 gene, indicating that TOPII-mediated changes in chromatin structure could be responsible for the induction. This suggests that the IRF-7 gene is localized in the condensed area of the chromosome where it is inaccessible to transcription factors that would promote its constitutive expression.
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PMID:Stimulation of IRF-7 gene expression by tumor necrosis factor alpha: requirement for NFkappa B transcription factor and gene accessibility. 1187 97

Chromatin integrity is maintained throughout the cell cycle through repair mechanisms and intrinsically by the ordered packaging of DNA in association with histone proteins; however, aberrant rearrangements within and between chromosomes do occur. The role of the nuclear matrix protein topoisomerase II (TopoII) in generating chromosome breakpoints has been a focus of recent investigations. TopoII preferentially binds in vitro to scaffold-associated regions (SARs) and is involved in many DNA processing activities that require chromosome untangling. SARs, biochemically defined DNA elements rich in A + T, have been proposed to serve as structural boundaries for chromatin loops and to delineate functional domains. In our investigation of gene compartmentalization in a eukaryotic genome, SAR-associated nucleotide motifs from Drosophila were mapped in the regions of three histone gene clusters in an in silico analysis of the genome of Caenorhabditis elegans. Sites with similarity to the 15 bp consensus for TopoII cleavage were found predominantly in A + T enriched intergenic regions. Reiteration of sites matching the TopoII core consensus led to the identification of a novel core histone gene on chromosome IV and provided evidence for duplication and inversion in each of the three histone gene clusters. Breakpoint analysis of DNA flanking reiterated regions revealed potential sites for TopoII cleavage and a base composition phenomenon suggestive of a trigger for inversion events.
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PMID:Evidence for dynamic alteration in histone gene clusters of Caenorhabditis elegans: a topoisomerase II connection? 1197

Histone deacetylase (HDAC) inhibitors are known to induce expression of genes such as p21(WAF1), thereby, leading to cell cycle arrest. In this work, we show that p21(WAF1) induction by HDAC inhibitors (depsipeptide and trichostatin A) is defective in Ataxia telangiectasia (AT) cells but normal in matched wild-type (WT) cells (human diploid fibroblasts). To verify the role of ATM in this effect, we show that ectopic expression of the WT ATM gene in an AT cell line fully restores p21(WAF1) induction by the HDAC inhibitors. Furthermore, because caffeine and wortmannin attenuate p21(WAF1) induction in WT cells, it is probable that the phosphatidylinositol 3'-kinase activity is essential for this process. Besides the p21(WAF1) promoter, activation of topoisomerase IIIalpha and SV40 promoters by the HDAC inhibitors are also decreased in the AT cell lines relative to WT cells; thus, these findings pertain to other promoters. Finally, despite the obvious induction deficiency of gene expression, the overall levels of H3 and H4 histone acetylation appear to be the same between AT and normal cells in response to HDAC inhibitor treatments. Taken together, the data indicate that ATM is involved in histone acetylation-mediated gene regulation.
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PMID:Histone deacetylase inhibitors activate p21(WAF1) expression via ATM. 1278 95

Transcription on chromatin by RNA polymerase II (pol II) is repressed as compared with transcription on histone-free DNA. In this study, we show that human topoisomerase I (topo I) and yeast topoisomerase II (topo II), each of which relax both positive and negative superhelical tension, reverse the transcriptional repression by chromatin. In the presence of bacterial topo I, which can relax only negative superhelical tension, the transcription is repressed on chromatin templates. The data together show that the relaxation of positive superhelical tension by these enzymes was the key property required for RNA synthesis from chromatin templates. In the absence of topoisomerase, transcriptional repression on chromatin depended on RNA length. The synthesis of transcripts of 100 nt or shorter was unaffected by chromatin, but repression was apparent when the RNA transcript was 200 nt or longer. These findings suggest that transcription on chromatin templates results in the accumulation of positive superhelical tension by the elongating polymerase, which in turn inhibits further elongation in the absence of topoisomerase activity.
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PMID:Elongation by RNA polymerase II on chromatin templates requires topoisomerase activity. 1293 Sep 51

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