<i>In vitro</i>
            characterization of DNA gyrase inhibition by microcin B17 analogs with altered bisheterocyclic sites

Zamble, Deborah B.; Miller, Deborah A.; Heddle, Jonathan G.; Maxwell, Anthony; Walsh, Christopher T.; Hollfelder, Florian

doi:10.1073/pnas.141225698

Cited by 39 publications

(37 citation statements)

References 28 publications

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“…We investigated the effect of MccB17 on ATP-independent relaxation by gyrase and found that the inhibition of this reaction by the toxin was also slow and incomplete. These results show that MccB17 inhibits supercoiling and relaxation of gyrase to a similar extent, and contrary to earlier reports (9,11), the action of MccB17 is not ATP-dependent. In contrast with MccB17, quinolones were shown to rapidly and completely inhibit the supercoiling and relaxation reactions of gyrase (36 -38).…”

Section: Effect Of Mccb17 On Supercoiling and Relaxation-previouscontrasting

confidence: 92%

“…It is expected that the effect of Ca 2ϩ is due to its substitution for Mg 2ϩ in the cleavage-religation process. Interaction of MccB17 with Gyrase-From our data and previous work (9,11), the action of MccB17 on gyrase is clearly distinct from that of quinolone drugs, such as ciprofloxacin, even if they both stabilize the cleavage complex. Quinolones completely inhibit the supercoiling and relaxation reactions of gyrase, and their effects can be rationalized from their proposed interaction with the distorted DNA (G segment) at the enzyme active site (44).…”

Section: Effect Of Mccb17 On Supercoiling and Relaxation-previoussupporting

confidence: 56%

“…work on the effect of MccB17 on DNA supercoiling catalyzed by DNA gyrase suggested that MccB17 is an inefficient inhibitor of the enzyme (9,11). In this work we found that the inhibition by 37.5 M MccB17 is slow and incomplete, i.e.…”

Section: Effect Of Mccb17 On Supercoiling and Relaxation-previousmentioning

confidence: 48%

“…Reactions-Previous work reported that MccB17 inhibits gyrase-catalyzed supercoiling slowly (11) or not at all (9) and that stabilization of the cleavage complex is ATP-dependent (9). To further investigate these effects, we have examined the gyrase supercoiling and relaxation reactions in the presence of MccB17 under a range of conditions.…”

Section: Dna Supercoiling and Relaxationmentioning

confidence: 99%

“…Of the two pairs of tandem, fused 4,2-bisheterocycles in MccB17, the integrity of the second one (B-site tandem; Fig. 1A) was found to be crucial for the potency of MccB17 (10,11).…”

mentioning

confidence: 99%

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The Action of the Bacterial Toxin Microcin B17

Pierrat¹,

Maxwell

2003

Journal of Biological Chemistry

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Microcins are a family of toxins produced by Enterobacteriaceae to inhibit phylogenetically related species (1). They differ from colicins by their smaller molecular mass and production at the stationary phase of growth (2). Microcin B17 (MccB17) 1 is a 3.1-kDa post-translationally modified peptide encoded on a plasmid in a single operon consisting of seven genes, mcbA to mcbG, responsible for synthesis, export, and immunity (3). Post-translational modifications involve both amino acid side chains and peptide backbones to form oxazole and thiazole rings (4 -6) that give MccB17 its characteristic structure (Fig. 1A).The action of microcin on sensitive Escherichia coli cells leads to an arrest of DNA replication and, consequently, to the induction of the SOS response (7). Moreover, MccB17 induces, in vitro and in vivo, double-stranded cleavage of DNA mediated by DNA gyrase (8). A mutation in the B subunit of gyrase (W751R) was found to confer resistance to MccB17, confirming that DNA gyrase is a cellular target of the toxin (8). MccB17 blocks gyrase by trapping the enzyme-DNA cleavage complex, a mode of action reminiscent of that of quinolones (8, 9). Of the two pairs of tandem, fused 4,2-bisheterocycles in MccB17, the integrity of the second one (B-site tandem; Fig. 1A) was found to be crucial for the potency of MccB17 (10, 11).DNA gyrase is a prokaryotic type II topoisomerase that negatively supercoils closed circular DNA with the requirement of ATP hydrolysis for energy (12, 13). The active enzyme is an A 2 B 2 heterotetramer with the A subunit (GyrA, 97 kDa) largely responsible for DNA wrapping and the breakage and reunion of DNA and the B subunit (GyrB, 90 kDa) responsible for ATP hydrolysis and the interaction with GyrA and DNA. The enzyme introduces supercoils into DNA by wrapping a doublestranded segment around itself, cleaving this DNA (the gate segment) in both strands, passing the wrapped DNA (transported segment) through the break, and then resealing the DNA (12-15). Binding of ATP to GyrB causes the closure of the clamp formed by dimerization of GyrB, which captures the transported segment and directs it through the doublestranded break in the gate segment. ATP is then hydrolyzed, allowing the enzyme to return to its starting conformation (16 -20).In addition to MccB17, other inhibitors of DNA gyrase include the antibacterial agents coumarins and quinolones and the bacterial toxin CcdB (21-23). Coumarins competitively inhibit ATP hydrolysis, whereas quinolones, such as ciprofloxacin (CFX) and oxolinic acid (OXO), stabilize the covalent gyrase-DNA cleavage complex. CcdB also stabilizes a cleavage complex but only in the presence of ATP (21). The trapping of the gyrase-DNA cleavage complex by MccB17 is also reported to be ATP-dependent (9). DNA cleavage complexes can also be observed in the absence of drugs or toxins, if Mg 2ϩ is substituted by Ca 2ϩ , with both gyrase (24) and eukaryotic topo II (25).The elucidation of the mode of action of MccB17 on DNA gyrase is important in at least two respects. F...

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Section: Effect Of Mccb17 On Supercoiling and Relaxation-previouscontrasting

confidence: 92%

Section: Effect Of Mccb17 On Supercoiling and Relaxation-previoussupporting

confidence: 56%

Section: Effect Of Mccb17 On Supercoiling and Relaxation-previousmentioning

confidence: 48%

Section: Dna Supercoiling and Relaxationmentioning

confidence: 99%

“…Of the two pairs of tandem, fused 4,2-bisheterocycles in MccB17, the integrity of the second one (B-site tandem; Fig. 1A) was found to be crucial for the potency of MccB17 (10,11).…”

mentioning

confidence: 99%

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The Action of the Bacterial Toxin Microcin B17

Pierrat¹,

Maxwell

2003

Journal of Biological Chemistry

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RiPPs: Ribosomally Synthesized and Posttranslationally Modified Peptides

Bindman

Donk

2014

Natural Products

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How Nature Morphs Peptide Scaffolds into Antibiotics

Nolan

Walsh

2008

ChemBioChem

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The conventional notion that peptides are poor candidates for orally available drugs because of protease-sensitive peptide bonds, intrinsic hydrophilicity, and ionic charges contrasts with the diversity of antibiotic natural products with peptide-based frameworks that are synthesized and utilized by Nature. Several of these antibiotics, including penicillin and vancomycin, are employed to treat bacterial infections in humans and have been best-selling therapeutics for decades. Others might provide new platforms for the design of novel therapeutics to combat emerging antibioticresistant bacterial pathogens.

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In vitro characterization of DNA gyrase inhibition by microcin B17 analogs with altered bisheterocyclic sites

Cited by 39 publications

References 28 publications

The Action of the Bacterial Toxin Microcin B17

The Action of the Bacterial Toxin Microcin B17

RiPPs: Ribosomally Synthesized and Posttranslationally Modified Peptides

How Nature Morphs Peptide Scaffolds into Antibiotics

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