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. 2021 Sep;597(7878):698-702.
doi: 10.1038/s41586-021-03899-0. Epub 2021 Sep 15.

Rational design of a new antibiotic class for drug-resistant infections

Thomas F Durand-Reville  1 Alita A Miller  1 John P O'Donnell  1 Xiaoyun Wu  2 Mark A Sylvester  1 Satenig Guler  1   3 Ramkumar Iyer  1 Adam B Shapiro  1 Nicole M Carter  1 Camilo Velez-Vega  1   2 Samir H Moussa  1 Sarah M McLeod  1 April Chen  1 Angela M Tanudra  1 Jing Zhang  1   4 Janelle Comita-Prevoir  1 Jan A Romero  1   5 Hoan Huynh  6 Andrew D Ferguson  7 Peter S Horanyi  8 Stephen J Mayclin  8 Henry S Heine  9 George L Drusano  9 Jason E Cummings  10 Richard A Slayden  10 Ruben A Tommasi  11
Affiliations

Rational design of a new antibiotic class for drug-resistant infections

Thomas F Durand-Reville et al. Nature. 2021 Sep.

Abstract

The development of new antibiotics to treat infections caused by drug-resistant Gram-negative pathogens is of paramount importance as antibiotic resistance continues to increase worldwide1. Here we describe a strategy for the rational design of diazabicyclooctane inhibitors of penicillin-binding proteins from Gram-negative bacteria to overcome multiple mechanisms of resistance, including β-lactamase enzymes, stringent response and outer membrane permeation. Diazabicyclooctane inhibitors retain activity in the presence of β-lactamases, the primary resistance mechanism associated with β-lactam therapy in Gram-negative bacteria2,3. Although the target spectrum of an initial lead was successfully re-engineered to gain in vivo efficacy, its ability to permeate across bacterial outer membranes was insufficient for further development. Notably, the features that enhanced target potency were found to preclude compound uptake. An improved optimization strategy leveraged porin permeation properties concomitant with biochemical potency in the lead-optimization stage. This resulted in ETX0462, which has potent in vitro and in vivo activity against Pseudomonas aeruginosa plus all other Gram-negative ESKAPE pathogens, Stenotrophomonas maltophilia and biothreat pathogens. These attributes, along with a favourable preclinical safety profile, hold promise for the successful clinical development of the first novel Gram-negative chemotype to treat life-threatening antibiotic-resistant infections in more than 25 years.

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Comment in

  • A novel single-agent antibiotic.
    Cully M. Cully M. Nat Rev Drug Discov. 2021 Nov;20(11):814. doi: 10.1038/d41573-021-00163-y. Nat Rev Drug Discov. 2021. PMID: 34556837 No abstract available.
  • A novel single-agent antibiotic.
    Cully M. Cully M. Nat Rev Microbiol. 2021 Dec;19(12):743. doi: 10.1038/s41579-021-00647-z. Nat Rev Microbiol. 2021. PMID: 34594016 No abstract available.

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