Structure-Function Studies of Polymyxin B Lipononapeptides

Molecules. 2019 Feb 2;24(3):553. doi: 10.3390/molecules24030553.

Abstract

The emerging threat of infections caused by highly drug-resistant bacteria has prompted a resurgence in the use of the lipodecapeptide antibiotics polymyxin B and colistin as last resort therapies. Given the emergence of resistance to these drugs, there has also been a renewed interest in the development of next generation polymyxins with improved therapeutic indices and spectra of action. We report structure-activity studies of 36 polymyxin lipononapeptides structurally characterised by an exocyclic FA-Thr²-Dab³ lipodipeptide motif instead of the native FA-Dab¹-Thr²-Dab³ tripeptide motif found in polymyxin B, removing one of the positively charged residues believed to contribute to nephrotoxicity. The compounds were prepared by solid phase synthesis using an on-resin cyclisation approach, varying the fatty acid and the residues at position 2 (P2), P3 and P4, then assessing antimicrobial potency against a panel of Gram-negative bacteria, including polymyxin-resistant strains. Pairwise comparison of N-acyl nonapeptide and decapeptide analogues possessing different fatty acids demonstrated that antimicrobial potency is strongly influenced by the N-terminal L-Dab-1 residue, contingent upon the fatty acid. This study highlights that antimicrobial potency may be retained upon truncation of the N-terminal L-Dab-1 residue of the native exocyclic lipotripeptide motif found in polymyxin B. The strategy may aid in the design of next generation polymyxins.

Keywords: antibiotic resistance; antibiotics; lipopeptide; nonapeptide; polymyxin.

MeSH terms

  • Anti-Infective Agents / chemistry*
  • Anti-Infective Agents / pharmacology
  • Cell Proliferation / drug effects
  • Fatty Acids / chemistry
  • Gram-Negative Bacteria / drug effects
  • Humans
  • Microbial Sensitivity Tests
  • Peptides / chemistry*
  • Peptides / pharmacology
  • Polymyxin B / chemistry*
  • Polymyxin B / pharmacology
  • Structure-Activity Relationship*

Substances

  • Anti-Infective Agents
  • Fatty Acids
  • Peptides
  • Polymyxin B