Antibiotic class with potent in vivo activity targeting lipopolysaccharide synthesis in Gram-negative bacteria.
Douglas L HusebySha CaoEdouard ZamaratskiSanjeewani SooriyaarachchiShabbir AhmadTerese BergforsLaura KrasnovaJuris PelssMartins IkaunieksEinars LozaMartins KatkevicsOlga BobilevaHelena CiruleBaiba GukalovaSolveiga GrinbergaMaria BacklundIvailo SimoffAnna T LeberTalía Berruga-FernándezDmitry AntonovVivekananda R KondaStefan LindströmGustav OlandersPeter BrandtPawel BaranczewskiCarina Vingsbo LundbergEdgars LiepiņšEdgars SunaT Alwyn JonesSherry L MowbrayDiarmaid HughesAnders KarlénPublished in: Proceedings of the National Academy of Sciences of the United States of America (2024)
Here, we describe the identification of an antibiotic class acting via LpxH, a clinically unexploited target in lipopolysaccharide synthesis. The lipopolysaccharide synthesis pathway is essential in most Gram-negative bacteria and there is no analogous pathway in humans. Based on a series of phenotypic screens, we identified a hit targeting this pathway that had activity on efflux-defective strains of Escherichia coli . We recognized common structural elements between this hit and a previously published inhibitor, also with activity against efflux-deficient bacteria. With the help of X-ray structures, this information was used to design inhibitors with activity on efflux-proficient, wild-type strains. Optimization of properties such as solubility, metabolic stability and serum protein binding resulted in compounds having potent in vivo efficacy against bloodstream infections caused by the critical Gram-negative pathogens E. coli and Klebsiella pneumoniae . Other favorable properties of the series include a lack of pre-existing resistance in clinical isolates, and no loss of activity against strains expressing extended-spectrum-β-lactamase, metallo-β-lactamase, or carbapenemase-resistance genes. Further development of this class of antibiotics could make an important contribution to the ongoing struggle against antibiotic resistance.
Keyphrases
- escherichia coli
- gram negative
- klebsiella pneumoniae
- multidrug resistant
- acinetobacter baumannii
- wild type
- toll like receptor
- inflammatory response
- high resolution
- lps induced
- genome wide
- healthcare
- biofilm formation
- anti inflammatory
- protein protein
- staphylococcus aureus
- amino acid
- mass spectrometry
- antimicrobial resistance