Direct antimicrobial activity of cationic amphipathic peptide WLBU2 against Staphylococcus aureus biofilms is enhanced in physiologic buffered saline.

ABSTRACT

Periprosthetic joint infection of total knee arthroplasties represents a major challenge to the field of orthopedic surgery. These infections are commonly associated with antibiotic-tolerant Staphylococcus aureus biofilms. Engineered cationic amphipathic peptide WLBU2 has shown the ability to kill antibiotic-resistant pathogens and drug-tolerant bacterial biofilms. The novelty of using WLBU2 during the direct irrigation and debridement of periprosthetic joint infections led our group to investigate the optimal washout conditions for treatment of S. aureus biofilms. S. aureus mature biofilms were grown on metal implant material and treated with WLBU2 dissolved in differing irrigation solvents. Mature biofilms were treated both in vitro as well as in a periprosthetic joint infection murine model. WLBU2 activity against S. aureus biofilms was increased when dissolved in diphosphate-buffered saline (dPBS) with pH of 7.0 compared with normal saline with pH of 5.5. WLBU2 activity was decreased in acidic dPBS and increased in alkaline dPBS. WLBU2 activity could be decreased in hypertonic dPBS and increased in hypotonic dPBS. WLBU2 dissolved in less acidic dPBS displayed increased efficacy in treating periprosthetic joint infection (PJI) implants ex vivo. WLBU2 demonstrated the ability to eliminate PJI associated S. aureus biofilms on arthroplasty material. The efficacy of engineered cationic amphipathic peptide WLBU2 for intraoperative elimination of S. aureus biofilms can be further optimized when kept in a less acidic and more physiologic pH adjusted saline. Understanding optimal physical washout conditions are vital for the success of WLBU2 in treating S. aureus biofilms in PJI clinical trials going forward.