Synthesis and Biological Evaluations of Teixobactin Analogues against Gram-positive Bacteria and Biofilms (#371)
Antimicrobial resistance (AMR) represents a threat to global health, leading to an increase in mortality and morbidity rate. The ability for Gram-positive bacteria to form communities on surfaces as biofilms also lead to increased resistance and such infections are more difficult to treat with currently approved antibiotics. Therefore, new potent antibiotics are in need to enter the drug pipeline.
Antimicrobial peptides are a class of antimicrobials which are generated by many organisms as part of immune responses, which provide new natural products for synthetic chemists to synthesise novel antimicrobials.
Teixobactin is a macrocyclic depsipeptide presenting excellent activity against Gram-positive bacteria without detectable resistance, targeting lipid II and III to inhibit bacterial cell wall biosynthesis. Teixobactin consists of 11 amino acids with a linear chain and macrocyclic ring, which is constituted by several proteinogenic and one non-proteinogenic amino acid (ʟ-allo-enduracididine). Previous studies revealed that some residues within teixobactin can be modified to different functional groups with enhanced or no loss of antimicrobial activity. The mode of action of teixobactin analogues was analysed.
The aims of current projects are to synthesise teixobactin analogues with novel modifications and evaluate their bioactive activities against planktonic bacteria and bacterial biofilms. A broader scope of structural activity relationship for these analogues can be analysed to enhance antimicrobial activity. Libraries of teixobactin analogues were synthesised and screened by minimal inhibitory concentration (MIC) studies against Gram-positive bacteria as such as Staphylococcus aureus. Potent teixobactin analogues were further studied to analyse the antibiofilm properties against bacterial biofilms. Biological data can provide information on the lead drug candidates for further in vitro and in vivo studies against Gram-positive bacteria and associated biofilms.
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