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1. Experimental localization of metal-binding sites reveals the role of metal ions in type II DNA topoisomerases.

Author

Beijia Wang, Najmudin, Shabir, Xiao-Su Pan, Mykhaylyk, Vitaliy, Orr, Christian, Wagner, Armin, Govada, Lata, Chayen, Naomi E., Fisher, L. Mark, and Sanderson, Mark R.

Subjects
DNA topoisomerases, METAL ions, X-ray crystallography, STREPTOCOCCUS pneumoniae, DRUG target
Abstract

Metal ions have important roles in supporting the catalytic activity of DNA-regulating enzymes such as topoisomerases (topos). Bacterial type II topos, gyrases and topo IV, are primary drug targets for fluoroquinolones, a class of clinically relevant antibacterials requiring metal ions for efficient drug binding. While the presence of metal ions in topos has been elucidated in biochemical studies, accurate location and assignment of metal ions in structural studies have historically posed significant challenges. Recent advances in X-ray crystallography address these limitations by extending the experimental capabilities into the long-wavelength range, exploiting the anomalous contrast from light elements of biological relevance. This breakthrough enables us to confirm experimentally the locations of Mg2+ in the fluoroquinolone-stabilized Streptococcus pneumoniae topo IV complex. Moreover, we can unambiguously identify the presence of K+ and Cl-ions in the complex with one pair of K+ ions functioning as an additional intersubunit bridge. Overall, our data extend current knowledge on the functional and structural roles of metal ions in type II topos. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Discovery and Optimization of DNA Gyrase and Topoisomerase IV Inhibitors with Potent Activity against Fluoroquinolone-Resistant Gram-Positive Bacteria

Author

Lapointe, Guillaume, primary, Skepper, Colin K., additional, Holder, Lauren M., additional, Armstrong, Duncan, additional, Bellamacina, Cornelia, additional, Blais, Johanne, additional, Bussiere, Dirksen, additional, Bian, Jianwei, additional, Cepura, Cody, additional, Chan, Helen, additional, Dean, Charles R., additional, De Pascale, Gianfranco, additional, Dhumale, Bhavesh, additional, Fisher, L. Mark, additional, Fulsunder, Mangesh, additional, Kantariya, Bhavin, additional, Kim, Julie, additional, King, Sean, additional, Kossy, Lauren, additional, Kulkarni, Upendra, additional, Lakshman, Jay, additional, Leeds, Jennifer A., additional, Ling, Xiaolan, additional, Lvov, Anatoli, additional, Ma, Sylvia, additional, Malekar, Swapnil, additional, McKenney, David, additional, Mergo, Wosenu, additional, Metzger, Louis, additional, Mhaske, Keshav, additional, Moser, Heinz E., additional, Mostafavi, Mina, additional, Namballa, Sunil, additional, Noeske, Jonas, additional, Osborne, Colin, additional, Patel, Ashish, additional, Patel, Darshit, additional, Patel, Tushar, additional, Piechon, Philippe, additional, Polyakov, Valery, additional, Prajapati, Krunal, additional, Prosen, Katherine R., additional, Reck, Folkert, additional, Richie, Daryl L., additional, Sanderson, Mark R., additional, Satasia, Shailesh, additional, Savani, Bhautik, additional, Selvarajah, Jogitha, additional, Sethuraman, Vijay, additional, Shu, Wei, additional, Tashiro, Kyuto, additional, Thompson, Katherine V., additional, Vaarla, Krishniah, additional, Vala, Lakhan, additional, Veselkov, Dennis A., additional, Vo, Jason, additional, Vora, Bhavesh, additional, Wagner, Trixie, additional, Wedel, Laura, additional, Williams, Sarah L., additional, Yendluri, Satya, additional, Yue, Qin, additional, Yifru, Aregahegn, additional, Zhang, Yong, additional, and Rivkin, Alexey, additional

Published
2021
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9. Topoisomerase Inhibitors Addressing Fluoroquinolone Resistance in Gram-Negative Bacteria

Author

Skepper, Colin K., primary, Armstrong, Duncan, additional, Balibar, Carl J., additional, Bauer, Daniel, additional, Bellamacina, Cornelia, additional, Benton, Bret M., additional, Bussiere, Dirksen, additional, De Pascale, Gianfranco, additional, De Vicente, Javier, additional, Dean, Charles R., additional, Dhumale, Bhavesh, additional, Fisher, L. Mark, additional, Fuller, John, additional, Fulsunder, Mangesh, additional, Holder, Lauren M., additional, Hu, Cheng, additional, Kantariya, Bhavin, additional, Lapointe, Guillaume, additional, Leeds, Jennifer A., additional, Li, Xiaolin, additional, Lu, Peichao, additional, Lvov, Anatoli, additional, Ma, Sylvia, additional, Madhavan, Shravanthi, additional, Malekar, Swapnil, additional, McKenney, David, additional, Mergo, Wosenu, additional, Metzger, Louis, additional, Moser, Heinz E., additional, Mutnick, Daniel, additional, Noeske, Jonas, additional, Osborne, Colin, additional, Patel, Ashish, additional, Patel, Darshit, additional, Patel, Tushar, additional, Prajapati, Krunal, additional, Prosen, Katherine R., additional, Reck, Folkert, additional, Richie, Daryl L., additional, Rico, Alice, additional, Sanderson, Mark R., additional, Satasia, Shailesh, additional, Sawyer, William S., additional, Selvarajah, Jogitha, additional, Shah, Nirav, additional, Shanghavi, Kartik, additional, Shu, Wei, additional, Thompson, Katherine V., additional, Traebert, Martin, additional, Vala, Anand, additional, Vala, Lakhan, additional, Veselkov, Dennis A., additional, Vo, Jason, additional, Wang, Michael, additional, Widya, Marcella, additional, Williams, Sarah L., additional, Xu, Yongjin, additional, Yue, Qin, additional, Zang, Richard, additional, Zhou, Bo, additional, and Rivkin, Alexey, additional

Published
2020
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16. Cloning and characterization of the parC and parE genes of Streptococcus pneumoniae encoding DNA topoisomerase IV: role in fluoroquinolone resistance

Author

Pan, Xiao-Su and Fisher, L. Mark

Subjects
Streptococcus pneumoniae -- Physiological aspects, Cloning -- Research, Quinolone antibacterial agents -- Physiological aspects, Isomerases -- Physiological aspects, Biological sciences
Abstract

The cloning and characterization of parC and parE genes show that the Streptococcus pneumoniae DNA topoisomerase IV is a key target of fluoroquinolone. The drug induces the substitution of Ser-79 in the ParC subunit of the enzyme with tyrosine. Ciprofloxacin acts mainly on the homologous subunit of DNA topoisomerase IV in Staphylococcus aureus. The effect of these drugs in these two genera differs from that in gram negative bacteria where gyrase is the main target rather than DNA topoisomerase IV.

Published
1996

19. An Escherichia coli DNA topoisomerase I mutant has a compensatory mutation that alters two residues between functional domains of the DNA gyrase A protein

Author

Oram, Mark and Fisher, L. Mark

Subjects
Isomerases -- Genetic aspects, Suppression, Genetic -- Research, Escherichia coli -- Genetic aspects, Enzymes, Biological sciences
Abstract

Gyrase A is a subunit of DNA gyrase, and is involved in the transient DNA breakage-reunion which requires ATP and hydrolysis of gyrase B. A mutant Escherichia coli strain DM750 which exhibits 20-fold less gyrase A activity was generated and a compensatory mutation was characterized. The results showed that recovery of the defective gyrase A could be induced by interchanging the Ala-569 and Thr-586 residues, which are located between the functional domains of gyrase A. The suppressor mutations may be involved in altering allosteric interactions in the gyrase complex.

Published
1992

20. Nucleotide sequence of the Staphylococcus aureus gyrB-gyrA locus encoding the DNA gyrase A and B proteins

Author

Margerrison, Edward E. C., Hopewell, Robert, and Fisher, L. Mark

Subjects
Staphylococcus aureus -- Genetic aspects, DNA topoisomerase II -- Genetic aspects, Biological sciences
Abstract

The nucleotide sequence of the gyrB-gyrA locus encoding DNA gyrase proteins in Staphylococcus aureus was analyzed and was found to consist of 5,300 base pairs. The gyrB gene codes for a 640-residue protein while gyrA encodes a 889-residue protein. Both proteins are subunits of DNA gyrase. Further studies indicate that S. aureus DNA gyrase are very similar to that of other bacteria, however, the DNA gyrase of S. aureus is more resistant to inhibition by quinolone. This contrasts the observed conservation of the amino acid sequence of bacterial gyrase proteins.

Published
1992

23. Exploring the active site of the Streptococcus pneumoniae topoisomerase IV–DNA cleavage complex with novel 7,8-bridged fluoroquinolones

Author

Laponogov, Ivan, Pan, Xiao-Su, Veselkov, Dennis A., Cirz, Ryan T., Wagman, Allan, Moser, Heinz E., Fisher, L. Mark, and Sanderson, Mark R.

Subjects
drug design, Research, Topoisomerases, Protein-DNA complexes, protein–DNA complexes, Drug design, topoisomerases, MIC determinants, DNA topological experiments, lcsh:Biology (General), lcsh:QH301-705.5, Research Article, X-ray crystallography
Abstract

As part of a programme of synthesizing and investigating the biological properties of new fluoroquinolone antibacterials and their targeting of topoisomerase IV from Streptococcus pneumoniae, we have solved the X-ray structure of the complexes of two new 7,8-bridged fluoroquinolones (with restricted C7 group rotation favouring tight binding) in complex with the topoisomerase IV from S. pneumoniae and an 18-base-pair DNA binding site-the E-site-found by our DNA mapping studies to bind drug strongly in the presence of topoisomerase IV (Leo et al. 2005 J. Biol. Chem. 280, 14 252-14 263, doi:10.1074/jbc.M500156200). Although the degree of antibiotic resistance towards fluoroquinolones is much lower than that of β-lactams and a range of ribosome-bound antibiotics, there is a pressing need to increase the diversity of members of this successful clinically used class of drugs. The quinolone moiety of the new 7,8-bridged agents ACHN-245 and ACHN-454 binds similarly to that of clinafloxocin, levofloxacin, moxifloxacin and trovofloxacin but the cyclic scaffold offers the possibility of chemical modification to produce interactions with other topoisomerase residues at the active site.

Published
2016
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24. Structure of a quinolone-stabilized cleavage complex of topoisomerase IV from it Klebsiella pneumoniae and comparison with a related it Streptococcus pneumoniae complex

Author

Veselkov, Dennis A., Laponogov, Ivan, Pan, Xiao-Su, Selvarajah, Jogitha, Skamrova, Galyna B., Branstrom, Arthur, Narasimhan, Jana, Prasad, Josyula V. N. Vara, Fisher, L. Mark, and Sanderson, Mark R.

Subjects
Klebsiella pneumoniae, cleavage complex, quinolone, levofloxacin, topoisomerase IV, DNA binding, isomerase, isomerase-DNA complex, topoisomerases, Gram-negative complexes, X-ray crystallography, protein-DNA-drug complexes
Abstract

Klebsiella pneumoniae is a Gram-negative bacterium that is responsible for a range of common infections, including pulmonary pneumonia, bloodstream infections and meningitis. Certain strains of it Klebsiella have become highly resistant to antibiotics. Despite the vast amount of research carried out on this class of bacteria, the molecular structure of its topoisomerase IV, a type II topoisomerase essential for catalysing chromosomal segregation, had remained unknown. In this paper, the structure of its DNA-cleavage complex is reported at 3.35Å resolution. The complex is comprised of ParC breakage-reunion and ParE TOPRIM domains of it K. pneumoniae topoisomerase IV with DNA stabilized by levofloxacin, a broad-spectrum fluoroquinolone antimicrobial agent. This complex is compared with a similar complex from it Streptococcus pneumoniae, which has recently been solved.

Published
2016
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25. Studies of prokaryotic Type II topoisomerase drug inhibition

Author

Sanderson, Mark R., primary, Laponogov, Ivan, additional, Pan, Xiaosu, additional, Veselkov, Dennis A., additional, Crevel, Isabelle M.-T., additional, Selvarajah, Jogitha, additional, Branstrom, Art, additional, Cirz, Ryan, additional, Moser, Heinz E., additional, and Fisher, L. Mark, additional

Published
2017
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26. Structure of a quinolone-stabilized cleavage complex of topoisomerase IV fromKlebsiella pneumoniaeand comparison with a relatedStreptococcus pneumoniaecomplex

Author

Veselkov, Dennis A., primary, Laponogov, Ivan, additional, Pan, Xiao-Su, additional, Selvarajah, Jogitha, additional, Skamrova, Galyna B., additional, Branstrom, Arthur, additional, Narasimhan, Jana, additional, Prasad, Josyula V. N. Vara, additional, Fisher, L. Mark, additional, and Sanderson, Mark R., additional

Published
2016
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32. Structure of a quinolone-stabilized cleavage complex of topoisomerase IV from Klebsiella pneumoniae and comparison with a related Streptococcus pneumoniae complex.

Author

Veselkov, Dennis A., Laponogov, Ivan, Pan, Xiao-Su, Selvarajah, Jogitha, Skamrova, Galyna B., Branstrom, Arthur, Narasimhan, Jana, Prasad, Josyula V. N. Vara, Fisher, L. Mark, and Sanderson, Mark R.

Subjects
QUINOLONE antibacterial agents, DNA topoisomerases, KLEBSIELLA pneumoniae
Abstract

Klebsiella pneumoniae is a Gram-negative bacterium that is responsible for a range of common infections, including pulmonary pneumonia, bloodstream infections and meningitis. Certain strains of Klebsiella have become highly resistant to antibiotics. Despite the vast amount of research carried out on this class of bacteria, the molecular structure of its topoisomerase IV, a type II topoisomerase essential for catalysing chromosomal segregation, had remained unknown. In this paper, the structure of its DNA-cleavage complex is reported at 3.35 Å resolution. The complex is comprised of ParC breakage-reunion and ParE TOPRIM domains of K. pneumoniae topoisomerase IV with DNA stabilized by levofloxacin, a broad-spectrum fluoroquinolone antimicrobial agent. This complex is compared with a similar complex from Streptococcus pneumoniae, which has recently been solved. [ABSTRACT FROM AUTHOR]

Published
2016
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44. Methods to Assay Inhibitors of DNA Gyrase and Topoisomerase IV Activities.

Author

Walker, John M., Champney, W. Scott, Fisher, L. Mark, and Pan, Xiao-Su

Abstract

DNA gyrase and DNA topoisomerase (topo) IV are the bacterial targets of coumarin and quinolone antimicrobial agents. Widespread resistance to clinically important antibiotics such as beta-lactams and macrolides has stimulated the development of novel gyrase and topo IV inhibitors especially against Streptococcus pneumoniae and other Gram-positive pathogens. Here, we describe how gyrase and topo IV activities are measured and how inhibitors of these enzymes may be assayed, focusing as a paradigm on DNA supercoiling by S. pneumoniae gyrase, DNA decatenation by S. pneumoniae topo IV, and DNA cleavage by both enzymes. These approaches provide mechanistic insight on inhibitor action and allow identification of dual gyrase/topo IV targeting agents that can minimize the emergence of bacterial resistance. [ABSTRACT FROM AUTHOR]

Published
2008
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