Studies of antibacterial activity (in vitro and in vivo) and mode of action for des-acyl tridecaptins (DATs)

Tridecaptins comprise a class of linear cationic lipopeptides with an N-terminal fatty acyl moiety. These 13-mer antimicrobial peptides consist of a combination of d- and l-amino acids, conferring increased proteolytic stability. Intriguingly, they are biosynthesized by non-ribosomal peptide synthet...

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Veröffentlicht in:European journal of medicinal chemistry 2024-02, Vol.265, p.116097-116097, Article 116097
Hauptverfasser: Couturier, Cédric, Ronzon, Quentin, Lattanzi, Giulia, Lingard, Iain, Coyne, Sebastien, Cazals, Veronique, Dubarry, Nelly, Yvon, Stephane, Leroi-Geissler, Corinne, Gracia, Obdulia Rabal, Teague, Joanne, Sordello, Sylvie, Corbett, David, Bauch, Caroline, Monlong, Chantal, Payne, Lloyd, Taillier, Thomas, Fuchs, Hazel, Broenstrup, Mark, Harrison, Peter H., Moynié, Lucile, Lakshminarayanan, Abirami, Gianga, Tiberiu-Marius, Hussain, Rohanah, Naismith, James H., Mourez, Michael, Bacqué, Eric, Björkling, Fredrik, Sabuco, Jean-Francois, Franzyk, Henrik
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Sprache:eng
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Zusammenfassung:Tridecaptins comprise a class of linear cationic lipopeptides with an N-terminal fatty acyl moiety. These 13-mer antimicrobial peptides consist of a combination of d- and l-amino acids, conferring increased proteolytic stability. Intriguingly, they are biosynthesized by non-ribosomal peptide synthetases in the same bacterial species that also produce the cyclic polymyxins displaying similar fatty acid tails. Previously, the des-acyl analog of TriA1 (termed H-TriA1) was found to possess very weak antibacterial activity, albeit it potentiated the effect of several antibiotics. In the present study, two series of des-acyl tridecaptins were explored with the aim of improving the direct antibacterial effect. At the same time, overall physico-chemical properties were modulated by amino acid substitution(s) to diminish the risk of undesired levels of hemolysis and to avoid an impairment of mammalian cell viability, since these properties are typically associated with highly hydrophobic cationic peptides. Microbiology and biophysics tools were used to determine bacterial uptake, while circular dichroism and isothermal calorimetry were used to probe the mode of action. Several analogs had improved antibacterial activity (as compared to that of H-TriA1) against Enterobacteriaceae. Optimization enabled identification of the lead compound 29 that showed a good ADMET profile as well as in vivo efficacy in a variety of mouse models of infection. [Display omitted]
ISSN:0223-5234
1768-3254
DOI:10.1016/j.ejmech.2023.116097