Abstract
To combat the threat of antibiotic-resistant Gram-negative bacteria, novel agents that circumvent established resistance mechanisms are urgently needed. Our approach was to focus first on identifying bioactive small molecules followed by chemical lead prioritization and target identification. Within this annotated library of bioactives, we identified a small molecule with activity against efflux-deficient Escherichia coli and other sensitized Gram-negatives. Further studies suggested that this compound inhibited DNA replication and selection for resistance identified mutations in a subunit of E. coli DNA gyrase, a type II topoisomerase. Our initial compound demonstrated weak inhibition of DNA gyrase activity while optimized compounds demonstrated significantly improved inhibition of E. coli and Pseudomonas aeruginosa DNA gyrase and caused cleaved complex stabilization, a hallmark of certain bactericidal DNA gyrase inhibitors. Amino acid substitutions conferring resistance to this new class of DNA gyrase inhibitors reside exclusively in the TOPRIM domain of GyrB and are not associated with resistance to the fluoroquinolones, suggesting a novel binding site for a gyrase inhibitor.
Highlights
Antibiotic resistance is an immediate and growing danger to human health
The morbidity and mortality wrought by these resistant bacteria know no international or socioeconomic boundaries
Beginning with a collection of compounds active against a sensitized E. coli strain containing mutations affecting the integrity of the outer membrane and a xenobiotic efflux system, we sought to categorize these bioactives by inhibition of macromolecule synthesis
Summary
Antibiotic resistance is an immediate and growing danger to human health. The morbidity and mortality wrought by these resistant bacteria know no international or socioeconomic boundaries. Amongst the ESKAPE pathogens are the Gram-negatives Klebsiella pneumoniae, Acinetobacter baumannii, Pseudomonas aeruginosa and Escherichia coli. These Gram-negative pathogens have been controlled with many of the currently approved antimicrobials. With the emergence and transmissibilityof a number of resistance mechanisms, such as β-lactamases, efflux pumps, or drug-modifying enzymes, treatment options can be very limited or non-existent [2].
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