Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

We report the synthesis, interaction with DNA, topoisomerase II inhibition, and cytotoxicity of two novel unfused aromatic dications derived from the antimicrobial agent furimidazoline. The central diphenylfuran core of furimidazoline has been replaced with a trithiophene (DB358) or a trifuran (DB669) unit and the terminal imidazoline groups were preserved. The strength and mode of binding of the drugs to nucleic acids were investigated by complementary spectroscopic techniques including spectrophotometric, surface plasmon resonance, circular and linear dichroism measurements. The trifuran derivative forms intercalation complexes with double-stranded DNA, whereas the mode of binding of the trithiophene derivative varies depending on the drug/DNA ratio, as independently confirmed by NMR spectroscopic studies performed with (A-T)7 and (G-C)7 oligomers. Two-dimensional NMR data provided a molecular model for the binding of DB358 within the minor groove of the AATT sequence of the decanucleotide d(GCGAATTCGC)(2). DNase I footprinting experiments confirmed the sequence-dependent binding of DB358 to DNA. The trithiophene derivative interacts preferentially with AT-rich sequences at low concentrations, but can accomodate GC sites at higher concentrations. DNA relaxation assays revealed that DB358 stimulated DNA cleavage by topoisomerase II, in contrast to DB669. The substitution of N-alkylamidines for the imidazoline terminal groups abolished the capacity of the drug to poison topoisomerase II. At the cellular level, flow cytometry analysis indicated that DB358, which is about six times more cytotoxic than the trifuran analogue, induced a significant accumulation of HL-60 human leukemia cells in the G2/M phase. The incorporation of thiophene heterocycles appears as a convenient procedure to limit the strict AT selectivity of dications containing an extended unfused aromatic system and to design cytotoxic DNA intercalating agents acting as poisons for human topoisomerase II.
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PMID:Novel dications with unfused aromatic systems: trithiophene and trifuran derivatives of furimidazoline. 1182 89

The translocation t(8;21)(q22;q22) is one of the most frequent chromosome translocations in acute myeloid leukemia (AML). AML1/RUNX1 at 21q22 is involved in t(8;21), t(3;21), and t(16;21) in de novo and therapy-related AML and myelodysplastic syndrome as well as in t(12;21) in childhood B cell acute lymphoblastic leukemia. Although DNA breakpoints in AML1 and ETO (at 8q22) cluster in a few introns, the mechanisms of DNA recombination resulting in t(8;21) are unknown. The correlation of specific chromatin structural elements, i.e., topoisomerase II (topo II) DNA cleavage sites, DNase I hypersensitive sites, and scaffold-associated regions, which have been implicated in chromosome recombination with genomic DNA breakpoints in AML1 and ETO in t(8;21) is unknown. The breakpoints in AML1 and ETO were clustered in the Kasumi 1 cell line and in 31 leukemia patients with t(8;21); all except one had de novo AML. Sequencing of the breakpoint junctions revealed no common DNA motif; however, deletions, duplications, microhomologies, and nontemplate DNA were found. Ten in vivo topo II DNA cleavage sites were mapped in AML1, including three in intron 5 and seven in intron 7a, and two were in intron 1b of ETO. All strong topo II sites colocalized with DNase I hypersensitive sites and thus represent open chromatin regions. These sites correlated with genomic DNA breakpoints in both AML1 and ETO, thus implicating them in the de novo 8;21 translocation.
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PMID:Genomic DNA breakpoints in AML1/RUNX1 and ETO cluster with topoisomerase II DNA cleavage and DNase I hypersensitive sites in t(8;21) leukemia. 1186 21

Several studies have shown that hexavalent chromium [Cr(VI)] induces apoptosis in a variety of in vitro test systems. We instilled intra-tracheally either saline or sodium dichromate (0.25 mg/kg body weight), for three consecutive days, to Sprague-Dawley rats. TUNEL analyses showed a marked increase of the apoptotic index in both bronchial epithelium and lung parenchyma of Cr(VI)-treated rats, but no effect was detected in their liver. In parallel, the expression of 13 out of 18 apoptosis-related genes, evaluated by cDNA array analysis, was significantly enhanced in rat lung. The overexpressed genes included c-Jun N-terminal kinases 1, 2 and 3, bcl-x, bcl-2-associated death promoter and bcl-2-related ovarian killer protein, caspases 1, 3 and 6, DNase I precursor, DNA topoisomerases I and II alpha, and poly(ADP-ribose) polymerase. The enhancement of p53 expression in the lung was borderline to statistical significance. Expressions of bcl-2, bax-alpha, mdm2 and DNA topoisomerase IIB were not enhanced to a significant extent in lung. No induction of gene expression was observed in rat liver. RT-PCR analyses confirmed that Cr(VI) enhances the expression of c-Jun N-terminal kinase 1, caspase 6, and DNase I precursor but not that of bcl-2 in lung, while none of these genes was overexpressed in the liver of Cr(VI)-treated rats. The lack of stimulation of apoptosis in the liver parallels the failure of Cr(VI) to produce genotoxic damage, as we previously observed under identical experimental conditions. These negative findings may be ascribed to reduction of Cr(VI) to Cr(III) when traveling from the respiratory tract to the liver. On the other hand, induction of apoptosis in the respiratory tract parallels the occurrence of genotoxic effects and oxidative DNA damage produced by Cr(VI) in the same tissue. As previously shown in another laboratory, Cr(VI) did not induce lung tumors after 30 months of administration of the same daily dose. Therefore, apoptosis is likely to provide a protective mechanism at a post-genotoxic stage of Cr(VI) carcinogenesis.
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PMID:Induction of apoptosis in the lung but not in the liver of rats receiving intra-tracheal instillations of chromium(VI). 1196 Sep 10

DNA topoisomerase IIalpha (Topo IIalpha) is regulated in late S phase-dependent manner. To identify late S phase-dependent cis-acting elements of Topo IIalpha gene, we have investigated the synchronized HeLa cells with chloramphenicol acetyltransferase and DNase I footprinting assays. The level of Topo IIalpha mRNA increased after release from aphidicolin block and reached a maximum in 8h (late S phase) in HeLa cells, and Topo II unknotting activity was also in parallel with the level of Topo IIalpha mRNA. The late S phase-regulatory element was found to be located in the region containing ATF-binding element between -290 and -90bp and the region was required for a maximal stimulation during late S phase. DNase I footprinting assay showed that ATF-binding element and novel cis-acting element (Topo IIalpha-specific sequence) were the principal protein-binding sites and the proteins interacting with these elements were induced during late S phase. One DNA-protein complex was formed by DNA mobility shift assay when ATF-binding site was incubated with nuclear extract prepared from late S phase cells, but no protein bound in non-S phase cells. Taken together, these results suggest that ATF may be essential transacting factor for maximal expression of Topo IIalpha gene during late S phase in HeLa cells.
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PMID:ATF is important to late S phase-dependent regulation of DNA topoisomerase IIalpha gene expression in HeLa cells. 1210 51

Bisnaphthalimides represent a promising group of DNA-targeted anticancer agents. In this series, the lead compounds elinafide and bisnafide have reached clinical trials, and the search for more potent analogues remains a priority. In the course of a medicinal chemistry program aimed at discovering novel antitumor drugs based on the naphthalimide skeleton, different dimeric molecules containing two tetracyclic neutral DNA intercalating chromophores were synthesized. The naphthalimide unit has been fused to a benzene ring (azonafide derivatives), an imidazole, a pyrazine, or, as reported here, a furan ring which increases the planar surface of the chromophore and enhances its stacking properties. We report a detailed investigation of the DNA binding capacity of the dimeric molecule MCI3335 composed of two furonaphthalimide units connected by a 12 A long amino alkyl linker [(CH(2))(2)-NH-(CH(2))(3)-NH-(CH(2))(2)] identical to that of elinafide. Qualitative and quantitative binding studies, in particular using surface plasmon resonance, establish that the dimer binds considerably more tightly to DNA (up to 1000 times) than the corresponding monomer and exhibits a higher sequence selectivity for GC-rich sequences. DNase I footprinting experiments attest that the dimer, and to a lesser extent the monomer, preferentially intercalate at GC sites. The strong binding interaction between the drugs and DNA perturbs the relaxation of supercoiled DNA by topoisomerases, but the test compounds do not promote DNA cleavage by topoisomerase I or II. Despite the lack of poisoning effect toward topoisomerase II, MCI3335 displays a very high cytotoxicity toward CEM human leukemia cells, with an IC(50) in the low nanomolar range, approximately 4 times inferior to that of the reference drug elinafide. Confocal microscopy observations indicate that the monomer shows a stronger tendency to accumulate in the cell nuclei than the dimer. The extremely high cytotoxic potential of MCI3335 is attributed to its enhanced capacity to bind to DNA and to inhibit DNA synthesis, as evidenced by flow cytometry experiments using the BrdU assay. The results provide novel mechanistic information that furthers the understanding of the structure-activity relationships in the bisnaphthalimide series and identify MCI3335 as a novel lead compound for further preclinical investigations.
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PMID:Chromophore-modified bisnaphthalimides: DNA recognition, topoisomerase inhibition, and cytotoxic properties of two mono- and bisfuronaphthalimides. 1268 Jul 68

The topoisomerase IIalpha promoter is regulated through transcription factor interactions with five inverted CCAAT boxes (ICBs). In confluent cancer cells, binding of nuclear factor Y to ICB2 represses the expression of this gene, contributing to resistance to topoisomerase II poisons. The ICB sites within the topoisomerase IIalpha promoter are, therefore, potential targets for the design of anticancer drugs and gene control agents. The synthesis and DNA binding properties of a hairpin polyamide molecule (JH-37) that targets 5'-TTGGT-3' found in ICB2 and ICB3 sites are described. Gel shift and DNase I footprinting studies on the topoisomerase IIalpha promoter showed JH-37 to preferentially bind to ICB2,3 and ICB1 sites. The larger DeltaT(M) values for ICB2,3 (8-9 degrees C) over ICB1,4,5 (4-5 degrees C) indicated a preference of JH-37 for ICB2,3. CD titration studies confirmed the binding of JH-37 to the minor groove, with a 1:1 binding stoichiometry. Results from SPR studies showed JH-37 to bind most strongly to ICB2 (K = 3 x 10(7) M(-1)), followed by ICB1, the non-ICB sequence (TGCA), and finally the ICB mutant (ICB2m). The improved binding to ICB2 is largely due to a lower dissociation rate of the compound at the preferred site. To our knowledge, this is the first example on the use of SPR for studying the interactions of hairpin polyamides with DNA. Binding of JH-37 to ICB2 was corroborated by ITC studies, in which the DeltaG degrees of binding is driven by both enthalpy and entropy. With knowledge of the fundamental thermodynamic and kinetic properties that govern the molecular recognition of polyamides with DNA, we are poised to systematically edit the structure of JH-37 in order to further enhance its binding affinity and selectivity for ICB2,3. Our strategy for designing molecules that control gene expression is to target shorter, but multiple, binding sites that are in close array within the promoter. Binding of JH-37 to multiple ICB sites in the topoisomerase IIalpha promoter is an ideal test for this strategy. This approach is in contrast to the traditional strategy of targeting 15-16 base pairs, which has not been successful in actual biological systems due to poor cell uptake and distribution.
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PMID:Targeting the inverted CCAAT box 2 in the topoisomerase IIalpha promoter by JH-37, an imidazole-pyrrole polyamide hairpin: design, synthesis, molecular biology, and biophysical studies. 1537 63

We report the synthesis of an original series of oxoazabenzo[de]anthracenes conjugated to an amino acid: Ala, Phe, Pro, Lys, or Gly (4a-e, respectively). The compounds, derived from 1,8-dihydroxyanthracene-9,10-dione, were studied for DNA binding and cytotoxicity. Melting temperature, fluorescence quenching, and surface plasmon resonance methods all indicated that the lysine derivative 4d binds to DNA much more strongly that the Pro, Ala, and Gly conjugates whereas the Phe analogue showed the lowest DNA binding capacity. These compounds form intercalation complexes with DNA, as judged from electric linear dichroism and topoisomerase I-based DNA unwinding experiments. Preferential binding of 4d to defined sequences such as 5'-CTAAAGG and 5'-ATGC was evidenced by DNase I footprinting. This Lys conjugate was found to be over 20 times more cytotoxic to CEM human leukemia cells than the other conjugates, with an IC50 in the submicromolar range. A high antiproliferative activity, likely attributable to the enhanced DNA binding capacity, is maintained despite the incapacity of the compound to stabilize topoisomerase-DNA covalent complexes. The cell cycle effects of 4d consisted in an S phase accumulation of cells coupled with a pro-apoptotic action (appearance of hypodiploid sub-G1 cells) which were confirmed by measuring the inhibition of BrdU incorporation into DNA and labeling of phosphatidylserine residues with annexin V-FITC by means of flow cytometry. Altogether, the work provides interesting structure-activity relationships in the oxoazabenzo[de]anthracene-amino acid conjugate series and identifies the lysine derivative 4d as a promising candidate for further in vivo evaluation and drug design.
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PMID:Oxoazabenzo[de]anthracenes conjugated to amino acids: synthesis and evaluation as DNA-binding antitumor agents. 1602 36

A novel hairpin polyamide, ZT65B, containing a 3-methylpicolinate moiety was designed to target the inverted CCAAT box (ICB) of the human multidrug resistance 1 gene (MDR1) promoter. Binding of nuclear factor-Y (NF-Y) to the ICB site upregulates MDR1 gene expression and is, therefore, a good target for anticancer therapeutic agents. However, it is important to distinguish amongst different promoter ICB sites so that only specific genes will be affected. All ICB sites have the same sequence but they differ in the sequence of the flanking base pairs, which can be exploited in the design of sequence-specific polyamides. To test this hypothesis, ten ICB-containing DNA hairpins were designed with different flanking base pairs; the sequences ICBa and ICBb were similar to the 3'-ICB site of MDR1 (TGGCT). Thermal-denaturation studies showed that ZT65B effectively targeted ICBa and ICBb (DeltaTM=6.5 and 7.0 degrees C) in preference to the other DNA hairpins (<3.5 degrees C), with the exception of ICBc (5.0 degrees C). DNase I-footprinting assays were carried out with the topoisomerase IIalpha-promoter sequence, which contains five ICB sites; of these, ICB1 and ICB5 are similar to the ICB site of MDR1. ZT65B was found to selectively bind ICB1 and ICB5; footprints were not observed with ICB2, ICB3, or ICB4. A strong, positive induced ligand band at 325 nm in CD studies confirmed that ZT65B binds in the DNA minor groove. The selectivity of ZT65B binding to hairpins that contained the MDR1 ICB site compared to one that did not (ICBd) was confirmed by surface-plasmon studies, and equilibrium constants of 5x10(6)-1x10(7) and 4.6x10(5) M-1 were obtained with ICB1, ICB5,and ICB2 respectively. ZT65B and the previously published JH37 (J. A. Henry, et al. Biochemistry 2004, 43, 12 249-12 257) serve as prototypes for the design of novel polyamides. These can be used to specifically target the subset of ubiquitous gene elements known as ICBs, and thereby affect the expression of one or a few proteins.
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PMID:Design of a hairpin polyamide, ZT65B, for targeting the inverted CCAAT box (ICB) site in the multidrug resistant (MDR1) gene. 1625 41

The t(9;22) BCR/ABL fusion is associated with over 90% of chronic myelogenous and 25% of acute lymphocytic leukemia. Chromosome 11q23 translocations in acute myeloid and lymphoid leukemia cells demonstrate myeloid lymphoid leukemia (MLL) fusions with over 40 gene partners, like AF9 and AF4 on chromosomes 9 and 4, respectively. Therapy-related leukemia is associated with the above gene rearrangements following the treatment with topoisomerase II (topo II) inhibitors. BCR, ABL, MLL, AF9 and AF4 have defined patient breakpoint cluster regions. Chromatin structural elements including topo II and DNase I cleavage sites and scaffold attachment sites have previously been shown to closely associate with the MLL and AF9 breakpoint cluster regions, implicating these elements in non-homologous recombination (NHR). In this report, using cell lines and primary cells, chromatin structural elements were analyzed in BCR, ABL and AF4 and, for comparison, in MLL2, which is a homolog to MLL, but not associated with chromosome translocations. Topo II and DNase I cleavage sites associated with all breakpoint cluster regions, whereas SARs associated with ABL and AF4, but not with BCR. No close breakpoint clustering with the topo II/DNase I sites were observed; however, a statistically significant 5' or 3' distribution of patient breakpoints to the topo II DNase I sites was found, implicating DNA repair and exonucleases. Although MLL2 was expressed in all cell lines tested, except for the presence of one DNAse I site in the promoter, no other structural elements were found in MLL2. A NHR model presented demonstrates the importance of chromatin structure in chromosome translocations involved with leukemia.
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PMID:Common chromatin structures at breakpoint cluster regions may lead to chromosomal translocations found in chronic and acute leukemias. 1657 68

Several types of DNA cuts are used as markers of apoptosis for detection of apoptotic cells in situ. We recently introduced a ligase-based in situ assay that is specific for a single type of DNA damage--a double-strand break of DNase I-type, bearing 5'PO4. Here we describe a vaccinia topoisomerase I-based approach to label another type of DNA damage in situ--a double-strand break of DNase II-type, bearing 5'OH. The assay uses a new type of probe, a molecular oscillator. The probe self-assembles in solution out of a dual-hairpin oligonucleotide and vaccinia topoisomerase I. The enzyme continuously separates and religates two fluorescently labeled hairpins, which can participate in energy transfer. We describe the successful combination of topoisomerase-and ligase-based systems into an in situ assay. The assay uses an oscillating probe for simultaneous detection of two types of DNA cuts in tissue sections.
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PMID:Oscillating probe for dual detection of 5'PO4 and 5'OH DNA breaks in tissue sections. 1678 20


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