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

In order to clarify the mechanism of action of quinolones against Staphylococcus aureus, GrlA and GrlB proteins of topoisomerase IV encoded by genes with or without mutations were purified separately as fusion proteins with maltose-binding protein in Escherichia coli. The reconstituted enzymes showed ATP-dependent decatenation and relaxing activities but had no supercoiling activity. The inhibitory effects of quinolones on the decatenation activity of topoisomerase IV were determined by quantitative electrophoresis with kinetoplast DNA as a substrate. The 50% inhibitory concentrations (IC50s) of levofloxacin, DR-3354, DU-6859a, DV-7751a, ciprofloxacin, sparfloxacin, and tosufloxacin against topoisomerase IV of S. aureus FDA 209-P were 2.3, 97, 0.45, 1.5, 2.5, 7.4, and 1.8 microg/ml, respectively, and were correlated well with their MICs. The IC50s of these drugs were from 2 to 20 times lower than those for the DNA gyrase. These results support genetic evidence that the primary target of new quinolones is topoisomerase IV in quinolone-susceptible strains of S. aureus. Three altered proteins of topoisomerase IV containing Ser-->Phe changes at codon 80 or Glu-->Lys changes at codon 84 of grlA, or both, were also purified. The inhibitory activities of quinolones against the topoisomerase IV which contained a single amino acid change were from 8 to 95 times weaker than those against the nonaltered enzyme. These results suggest that the mutations in the corresponding genes confer quinolone resistance.
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PMID:Inhibitory activities of quinolones against DNA gyrase and topoisomerase IV purified from Staphylococcus aureus. 937 34

The human small cell lung cancer NCI-H69 cell line selected for resistance to etoposide (H69/VP) has been reported previously to sequentially overexpress both the MRP and MDR1 multidrug resistance-conferring genes. In addition, immunocytochemistry of H69/VP cells demonstrated a distinct extranuclear localization of the nuclear enzyme topoisomerase IIalpha, the target of etoposide. Immunoblots showed a decrease in Mr 170,000 topoisomerase IIalpha in nuclear extracts in H69/VP but equal amounts of the enzyme in whole-cell extracts. Topoisomerase II catalytic activities in H69 and H69/VP whole-cell extracts were equal, as were their inhibition by etoposide. Sequencing of the entire H69/VP topoisomerase IIalpha cDNA showed a homozygous 9-nucleotide deletion encompassing nucleotides 4468-76, coding for Lys-Ser-Lys, overlapping two potential bipartite nuclear localization signals. The deletion occurred at the initial nine nucleotides of an exon, suggesting alternative splicing of topoisomerase IIalpha mRNA. Subsequent sequencing of H69/VP genomic DNA revealed a G-->T point mutation in the 3' acceptor splice site consensus sequence, resulting in the use of an alternate splice site. Comparison with previous reports on three drug-resistant cell lines with large truncations/deletions in the COOH-terminal region of topoisomerase IIalpha and extranuclear localization point to a pivotal role for the basic cluster 1490Lys-Ser-Lys1492 in the nuclear import of this enzyme.
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PMID:Loss of amino acids 1490Lys-Ser-Lys1492 in the COOH-terminal region of topoisomerase IIalpha in human small cell lung cancer cells selected for resistance to etoposide results in an extranuclear enzyme localization. 937 50

Footprinting of yeast DNA topoisomerase II and its NH2- and COOH-terminal truncation derivatives was carried out to map the locations of lysyl side chains that are involved in enzyme-DNA interaction, in the binding of ATP, or in interaction between domains of the same enzyme molecule. Several conclusions were drawn based on these measurements and the crystal structures of a 92-kDa fragment of the yeast enzyme and a 43-kDa fragment of Escherichia coli gyrase B-subunit. First, the footprinting results support the model previously inferred from the 92-kDa fragment crystal structure that the main site of DNA binding is comprised of a pair of semicircular grooves. Second, the binding of a nonhydrolyzable ATP analog to the yeast enzyme appears to affect citraconylation at a minimum of six lysines in the ATPase domain of each polypeptide. Two of these lysines are probably involved in contacting the nucleotide directly, and one probably becomes buried when the two ATPase domains of a dimeric enzyme come into contact upon ATP binding; for the others, changes in lysine reactivity appear to reflect allosteric changes following ATP binding. Third, from a comparison of the footprint of the intact enzyme and those of the truncated polypeptides comprised of either the NH2- or the COOH-terminal half of the intact polypeptide, it appears that there are few contacts between the NH2- and COOH-terminal half of yeast DNA topoisomerase II.
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PMID:Footprinting of yeast DNA topoisomerase II lysyl side chains involved in substrate binding and interdomainal interactions. 938 73

DNA topoisomerase II alpha is the intracellular target for several important chemotherapeutic agents, and drug-resistant human tumor cell lines have been described in which deletions in the C-proximal region of this enzyme are associated with its cytoplasmic localization. We have identified multiple potential bipartite nuclear localization signal (NLS) sequences in this region using a modified definition of the motif, and in the present study, we have expressed five of these as fusion proteins with beta-galactosidase. Only one sequence (spanning amino acids 1454 to 1497) was sufficient to cause strong nuclear localization. Subsequent mutation analyses indicated that this NLS sequence was bipartite and that both domains contain more than two basic amino acids. Substitution of the lysine residue at position 1492 in the second basic domain with glutamine resulted in a fusion protein that localized inefficiently to the nucleus, indicating that all three basic residues in this domain are necessary. Our results confirm that a broader definition is required to detect all potential bipartite NLS motifs in a polypeptide sequence, although functional tests are still essential for identification of those sequences actually capable of directing nuclear localization.
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PMID:Bipartite nuclear localization signals in the C terminus of human topoisomerase II alpha. 943 41

Nae I protein was originally isolated for its restriction endonuclease properties. Nae I was later discovered to either relax or cleave supercoiled DNA, depending upon whether Nae I position 43 contains a lysine (43K) or leucine (43L) respectively. Nae I-43K DNA relaxation activity appears to be the product of coupling separate endonuclease and ligase domains within the same polypeptide. Whereas Nae I relaxes supercoiled DNA like a topoisomerase, even forming a transient covalent intermediate with the substrate DNA, Nae I shows no obvious sequence similarity to the topoisomerases. To further characterize the topoisomerase activity of Nae I, we report here that Nae I-43K changes the linking number of a single negatively supercoiled topoisomer of pBR322 by units of one and therefore is a type I topoisomerase. Positively supercoiled pBR322 was resistant to Nae I-43K. At low salt concentration Nae I-43K was processive; non-saturating amounts of enzyme relaxed a fraction of the DNA. At high salt concentration the same non-saturating amounts of Nae I-43K partially relaxed all the DNA in a step-wise fashion to give a Gaussian distribution of topoisomers, demonstrating a switch from a processive to a distributive mode of action. Nae I-43K decatenated kinetoplast DNA containing nicked circles, implying that Nae I-43K can cleave opposite a nick. The products of the reaction are decatenated nicked circles under both processive and distributive conditions. The behavior of Nae I-43K is consistent with that of a prokaryotic type I topoisomerase.
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PMID:Step-wise DNA relaxation and decatenation by NaeI-43K. 958 Jun 89

Site-directed mutagenesis was carried out at 10 highly conserved polar residues within the C-terminal half of yeast DNA topoisomerase II, which corresponds to the A subunit of bacterial DNA gyrase, to identify amino acid side chains that augment the active site tyrosine Tyr-782 in the breakage and rejoining of DNA strands. Complementation tests show that alanine substitution at Arg-690, Asp-697, Lys-700, Arg-704, or Arg-781, but not at His-735, His-736, Glu-738, Gln-750, or Asn-828, inactivates the enzyme in vivo. Measurements of DNA relaxation and cleavage by purified mutant enzymes show that these activities are abolished in the R690A mutant and are much reduced in the mutants D697A, K700A, R704A, and R781A. When a Y782F polypeptide with a phenylalanine substituting for the active site tyrosine was expressed in cells that also express the R690A polypeptide, the resulting heterodimeric yeast DNA topoisomerase II was found to nick plasmid DNA. Thus in a dimeric wild-type enzyme, Tyr-782 in one protomer and Arg-690 in the other cooperate in trans in the catalysis of DNA cleavage. For the residues D697A, K700A, R704A, and R781A, their locations in the crystal structures of type II DNA topoisomerase fragments suggest that Arg-781 and Lys-700 might be involved in anchoring the 5' and 3' sides of the broken DNA, respectively, and the roles of Asp-697 and Arg-704 are probably less direct.
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PMID:Identification of active site residues in the "GyrA" half of yeast DNA topoisomerase II. 968 74

The Crithidia fasciculata KAP1 gene encodes a small basic protein (p21) associated with kinetoplast DNA. The p21 protein has a nine amino acid cleavable presequence closely related to those of several other proteins targeted to the kinetoplast and binds non-specifically to kinetoplast minicircle DNA. The p21 protein also has a calculated pI of 13 with two amino acids (lysine and alanine) accounting for more than 50% of the residues and with 25 out of 28 lysine residues contained in the C-terminal half of the protein. Immunolocalization of p21 shows that the protein is found exclusively in the kinetoplast with a localization distinctly different from the antipodal localization of kinetoplast DNA topoisomerase and DNA polymerase. The KAP11 gene is a single copy gene and the KAP1 mRNA is present at a constant level throughout the cell cycle. This highly basic protein may play a role in the condensation or segregation of the kinetoplast DNA.
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PMID:The Crithidia fasciculata KAP1 gene encodes a highly basic protein associated with kinetoplast DNA. 971 9

Mycoplasma hominis mutants were selected stepwise for resistance to ofloxacin and sparfloxacin, and their gyrA, gyrB, parC, and parE quinolone resistance-determining regions were characterized. For ofloxacin, four rounds of selection yielded six first-, six second-, five third-, and two fourth-step mutants. The first-step mutants harbored a single Asp426-->Asn substitution in ParE. GyrA changes (Ser83-->Leu or Trp) were found only from the third round of selection. With sparfloxacin, three rounds of selection generated 4 first-, 7 second-, and 10 third-step mutants. In contrast to ofloxacin resistance, GyrA mutations (Ser83-->Leu or Ser84-->Trp) were detected in the first-step mutants prior to ParC changes (Glu84-->Lys), which appeared only after the second round of selection. Further analysis of eight multistep-selected mutants of M. hominis that were previously described (2) revealed that they carried mutations in ParE (Asp426-->Asn), GyrA (Ser83-->Leu) and ParE (Asp426-->Asn), GyrA (Ser83-->Leu) and ParC (Ser80-->Ile), or ParC (Ser80-->Ile) alone, depending on the fluoroquinolone used for selection, i.e., ciprofloxacin, norfloxacin, ofloxacin, or pefloxacin, respectively. These data indicate that in M. hominis DNA gyrase is the primary target of sparfloxacin whereas topoisomerase IV is the primary target of pefloxacin, ofloxacin, and ciprofloxacin.
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PMID:Alterations in topoisomerase IV and DNA gyrase in quinolone-resistant mutants of Mycoplasma hominis obtained in vitro. 973 54

We examined the response of Streptococcus pneumoniae 7785 to clinafloxacin, a novel C-8-substituted fluoroquinolone which is being developed as an antipneumococcal agent. Clinafloxacin was highly active against S. pneumoniae 7785 (MIC, 0.125 microg/ml), and neither gyrA nor parC quinolone resistance mutations alone had much effect on this activity. A combination of both mutations was needed to register resistance, suggesting that both gyrase and topoisomerase IV are clinafloxacin targets in vivo. The sparfloxacin and ciprofloxacin MICs for the parC-gyrA mutants were 16 to 32 and 32 to 64 microg/ml, respectively, but the clinafloxacin MIC was 1 microg/ml, i.e., within clinafloxacin levels achievable in human serum. S. pneumoniae 7785 mutants could be selected stepwise with clinafloxacin at a low frequency, yielding first-, second-, third-, and fourth-step mutants for which clinafloxacin MICs were 0.25, 1, 6, and 32 to 64 microg/ml, respectively. Thus, high-level resistance to clinafloxacin required four steps. Characterization of the quinolone resistance-determining regions of the gyrA, parC, gyrB, and parE genes by PCR, HinfI restriction fragment length polymorphism, and DNA sequence analysis revealed an invariant resistance pathway involving sequential mutations in gyrA or gyrB, in parC, in gyrA, and finally in parC or parE. No evidence was found for other resistance mechanisms. The gyrA mutations in first- and third-step mutants altered GyrA hot spots Ser-83 to Phe or Tyr (Escherichia coli coordinates) and Glu-87 to Gln or Lys; second- and fourth-step parC mutations changed equivalent hot spots Ser-79 to Phe or Tyr and Asp-83 to Ala. gyrB and parE changes produced novel alterations of GyrB Glu-474 to Lys and of Pro-454 to Ser in the ParE PLRGK motif. Difficulty in selecting first-step gyrase mutants (isolated with 0.125 [but not 0.25] microg of clinafloxacin per ml at a frequency of 5.0 x 10(-10) to 8.5 x 10(-10)) accompanied by the small (twofold) MIC increase suggested only a modest drug preference for gyrase. Given the susceptibility of defined gyrA or parC mutants, the results suggested that clinafloxacin displays comparable if unequal targeting of gyrase and topoisomerase IV. Dual targeting and the intrinsic potency of clinafloxacin against S. pneumoniae and its first- and second-step mutants are desirable features in limiting the emergence of bacterial resistance.
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PMID:DNA gyrase and topoisomerase IV are dual targets of clinafloxacin action in Streptococcus pneumoniae. 979 8

The gene encoding human DNA topoisomerase (topo) I, the target of numerous anticancer drugs, has been subcloned into bacterial, yeast and baculovirus-based expression systems in attempts to overexpress the enzyme for extensive structural and functional characterisation. Expression in E.coli produced a protein which was not suitable for structural studies. Expression in the yeast system was more successful enabling the enzyme to be purified and characterised. However, the resulting yield was modest for our requirements and the full-length protein was found to be susceptible to proteolysis when expressed in this system. As it is known that topo I from human placental tissue contains significant quantities of a 68kDa proteolytic fragment which retains both DNA relaxation and cleavage activity, we have isolated this fragment and shown by N-terminal sequence analysis that it starts at Lysine-191. This information was used to construct vectors which direct the overexpression of this fragment in baculovirus infected insect cells. The recombinant protein has been purified to homogeneity in a yield of 5-10mg/l of cell culture. The fragment is stable and retains all of the DNA driving activities of the intact enzyme. We have characterised the interactions of the topo I fragment with synthetic DNA substrates and identified oligonucleotides and conditions that allow covalent complexes between 68kDa topo I and DNA to be formed with high efficiency and in large quantity. A flow linear dichroism technique has been further developed and applied for real-time monitoring of supercoiled (sc) DNA relaxation by the enzyme and for comparative analysis of inhibition of 68kDa topo I by camptothecin (CPT).
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PMID:Expression, purification and DNA-cleavage activity of recombinant 68-kDa human topoisomerase I-target for antitumor drugs. 1022 61


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