Mechanistic Studies of Antibiotic Adjuvants Reducing Kidney's Bacterial Loads upon Systemic Monotherapy

We describe the design and attributes of a linear pentapeptide-like derivative (C(14(omega 5))OOc(10)O) screened for its ability to elicit bactericidal competences of plasma constituents against Gram-negative bacteria (GNB). In simpler culture media, the lipopeptide revealed high aptitudes to sensitize resilient GNB to hydrophobic and/or efflux-substrate antibiotics, whereas in their absence, C(14(omega 5))OOc(10)O only briefly delayed bacterial proliferation. Instead, at low micromolar concentrations, the lipopeptide has rapidly lowered bacterial proton and ATP levels, although significantly less than upon treatment with its bactericidal analog. Mechanistic studies support a two-step scenario providing a plausible explanation for the lipopeptide's biological outcomes against GNB: initially, C(14(omega 5))OOc(10)O permeabilizes the outer membrane similarly to polymyxin B, albeit in a manner not necessitating as much LPS-binding affinity. Subsequently, C(14(omega 5))OOc(10)O would interact with the inner membrane gently yet intensively enough to restrain membrane-protein functions such as drug efflux and/or ATP generation, while averting the harsher inner membrane perturbations that mediate the fatal outcome associated with bactericidal peers. Preliminary in vivo studies where skin wound infections were introduced in mice, revealed a significant efficacy in affecting bacterial viability upon topical treatment with creams containing C(14(omega 5))OOc(10)O, whereas synergistic combination therapies were able to secure the pathogen's eradication. Further, capitalizing on the finding that C(14(omega 5))OOc(10)O plasma-potentiating concentrations were attainable in mice blood at sub-maximal tolerated doses, we used a urinary tract infection model to acquire evidence for the lipopeptide's systemic capacity to reduce the kidney's bacterial loads. Collectively, the data establish the role of C(14(omega 5))OOc(10)O as a compelling antibacterial potentiator and suggest its drug-like potential.

Automated summary

The study discusses the design of a linear pentapeptide derivative with bactericidal properties against Gram-negative bacteria. The lipopeptide demonstrated the ability to sensitize resilient bacteria to antibiotics, lower bacterial proton and ATP levels, and reduce membrane-protein functions. In vivo studies further confirmed its efficacy in treating skin wound infections and reducing bacterial loads in mouse kidneys, highlighting its potential as an antibacterial agent.