One proposed solution to the crisis of antimicrobial resistant (AMR) infections is the development of molecules that potentiate the activity of antibiotics for AMR bacteria, such as methicillin-resistant Staphylococcus aureus (MRSA). Rather than develop broad spectrum compounds, we developed a peptide that could potentiate the activity of a narrow spectrum antibiotic, oxacillin. In this way, the combination treatment could narrowly target the resistant pathogen and limit impact on host flora. We developed a peptide, ASU014, composed of a S. aureus binding peptide and a S. aureus inhibitory peptide conjugated to a branched peptide scaffold, which has modest activity against S. aureus but exhibits synergy with oxacillin for MRSA both in vitro and in a MRSA skin infection model. The low concentration of ASU014 and sub-MIC concentration of oxacillin necessary for activity suggest that this molecule is a candidate for future medicinal chemistry optimization.
Keywords: MRSA; antibacterial peptide; oxacillin; potentiator.