Hajnalka E. Davis scite author profile

Novel non-fluoroquinolone inhibitors of bacterial type II topoisomerases (DNA gyrase and topoisomerase IV) are of interest for the development of new antibacterial agents that are not impacted by target-mediated cross-resistance with fluoroquinolones. Aminopiperidines that have a bicyclic aromatic moiety linked through a carbon to an ethyl bridge, such as 1, generally show potent broad-spectrum antibacterial activity, including quinolone-resistant isolates, but suffer from potent hERG inhibition (IC(50)= 3 μM for 1). We now disclose the finding that new analogues of 1 with an N-linked cyclic amide moiety attached to the ethyl bridge, such as 24m, retain the broad-spectrum antibacterial activity of 1 but show significantly less hERG inhibition (IC(50)= 31 μM for 24m) and higher free fraction than 1. One optimized analogue, compound 24l, showed moderate clearance in the dog and promising efficacy against Staphylococcus aureus in a mouse thigh infection model.

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SAR and Structural Analysis of Siderophore-Conjugated Monocarbam Inhibitors of Pseudomonas aeruginosa PBP3

Murphy-Benenato

Dangel

Davis

et al. 2015

ACS Med. Chem. Lett.

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A main challenge in the development of new agents for the treatment of Pseudomonas aeruginosa infections is the identification of chemotypes that efficiently penetrate the cell envelope and are not susceptible to established resistance mechanisms. Siderophore-conjugated monocarbams are attractive because of their ability to hijack the bacteria's iron uptake machinery for transport into the periplasm and their inherent stability to metallo-β-lactamases. Through development of the SAR we identified a number of modifications to the scaffold that afforded active anti-P. aeruginosa agents with good physicochemical properties. Through crystallographic efforts we gained a better understanding into how these compounds bind to the target penicillin binding protein PBP3 and factors to consider for future design. KEYWORDS: Pseudomonas aeruginosa, β-lactam, penicillin binding protein, siderophore, monocarbam, structure-guided design O ne of the largest challenges in the discovery of new Gram-negative antibacterial agents is the identification of chemotypes that can penetrate the cell envelope. 1 The pathogens, such as Pseudomonas aeruginosa (P. aeruginosa), have evolved complex cell architectures including an outer membrane composed of charged lipopolysaccharides, a thin peptidogylcan layer, and an inner membrane made up of phospholipids. 2 Identifying molecules with the necessary features to enable permeation has been a challenge.β-Lactams are one chemotype that have been successful in the treatment of P. aeruginosa. 3 Since the discovery of penicillin, β-lactams have been used in the clinic and are still widely prescribed. One of the most effective classes of β-lactams for the treatment of P. aeruginosa infections are the carbapenems (e.g., meropenem, 1, Figure 1). 4 Their effectiveness stems from their ability to acylate their penicillin-binding protein (PBP) targets, aided by high permeability into P. aeruginosa through the outer membrane porins. 5 However, they are currently being challenged in the clinic by the increasing emergence of broadspectrum serine β-lactamases and metallo-β-lactamases which hydrolyze most β-lactams and render them ineffective. 6 There is one class of β-lactams that is stable to the metallo-β-lactamases: the monocyclic β-lactams represented by aztreonam (2). Aztreonam however has limited effectiveness against P. aeruginosa presumably due to its poor permeation of the outer membrane, β-lactamase susceptibility, and high propensity for efflux (P. aeruginosa MIC 90 ≥ 1024 μg/mL, n = 20 panel). 3,7 To address the poor activity of 2, we focused on improving permeation by introducing siderophore mimics to promote uptake. 8−10 Siderophores are small Fe-chelating molecules synthesized and secreted by bacteria to scavenge iron from the host. 9,11 The iron-complexed siderophores are then brought into the cell via the iron uptake machinery, enabling the bacteria to access the much needed nutrient. It has been shown that introduction of iron-chelating groups to a monocyclic β-lactam scaffold ca...

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Discovery of Efficacious Pseudomonas aeruginosa-Targeted Siderophore-Conjugated Monocarbams by Application of a Semi-mechanistic Pharmacokinetic/Pharmacodynamic Model

Murphy-Benenato¹,

Bhagunde²,

Chen³

et al. 2015

J. Med. Chem.

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To identify new agents for the treatment of multi-drug-resistant Pseudomonas aeruginosa, we focused on siderophore-conjugated monocarbams. This class of monocyclic β-lactams are stable to metallo-β-lactamases and have excellent P. aeruginosa activities due to their ability to exploit the iron uptake machinery of Gram-negative bacteria. Our medicinal chemistry plan focused on identifying a molecule with optimal potency and physical properties and activity for in vivo efficacy. Modifications to the monocarbam linker, siderophore, and oxime portion of the molecules were examined. Through these efforts, a series of pyrrolidinone-based monocarbams with good P. aeruginosa cellular activity (P. aeruginosa MIC90 = 2 μg/mL), free fraction levels (>20% free), and hydrolytic stability (t1/2 ≥ 100 h) were identified. To differentiate the lead compounds and enable prioritization for in vivo studies, we applied a semi-mechanistic pharmacokinetic/pharmacodynamic model to enable prediction of in vivo efficacy from in vitro data.

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Identification through structure-based methods of a bacterial NAD+-dependent DNA ligase inhibitor that avoids known resistance mutations

Murphy-Benenato

Wang

McGuire

et al. 2014

Bioorganic & Medicinal Chemistry Letters

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Corrigendum to “Identification through structure-based methods of a bacterial NAD+-dependent DNA ligase inhibitor that avoids known resistance mutations” [Bioorg. Med. Chem. Lett. 24 (2014) 360–366]

Murphy-Benenato

Wang

McGuire

et al. 2014

Bioorganic & Medicinal Chemistry Letters

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Hajnalka E. Davis

Novel N-Linked Aminopiperidine Inhibitors of Bacterial Topoisomerase Type II: Broad-Spectrum Antibacterial Agents with Reduced hERG Activity

SAR and Structural Analysis of Siderophore-Conjugated Monocarbam Inhibitors of Pseudomonas aeruginosa PBP3

Discovery of Efficacious Pseudomonas aeruginosa-Targeted Siderophore-Conjugated Monocarbams by Application of a Semi-mechanistic Pharmacokinetic/Pharmacodynamic Model

Identification through structure-based methods of a bacterial NAD+-dependent DNA ligase inhibitor that avoids known resistance mutations

Corrigendum to “Identification through structure-based methods of a bacterial NAD+-dependent DNA ligase inhibitor that avoids known resistance mutations” [Bioorg. Med. Chem. Lett. 24 (2014) 360–366]

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