Microbiology Spectrum (Aug 2023)

Phage-Antibiotic Cocktail Rescues Daptomycin and Phage Susceptibility against Daptomycin-Nonsusceptible Enterococcus faecium in a Simulated Endocardial Vegetation Ex Vivo Model

  • Ashlan J. Kunz Coyne,
  • Kyle Stamper,
  • Amer El Ghali,
  • Razieh Kebriaei,
  • Biswajit Biswas,
  • Melanie Wilson,
  • Michael V. Deschenes,
  • Truc T. Tran,
  • Cesar A. Arias,
  • Michael J. Rybak

DOI
https://doi.org/10.1128/spectrum.00340-23
Journal volume & issue
Vol. 11, no. 4

Abstract

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ABSTRACT Enterococcus faecium is a difficult-to-treat pathogen with emerging resistance to most clinically available antibiotics. Daptomycin (DAP) is the standard of care, but even high DAP doses (12 mg/kg body weight/day) failed to eradicate some vancomycin-resistant strains. Combination DAP-ceftaroline (CPT) may increase β-lactam affinity for target penicillin binding proteins (PBP); however, in a simulated endocardial vegetation (SEV) pharmacokinetic/pharmacodynamic (PK/PD) model, DAP-CPT did not achieve therapeutic efficacy against a DAP-nonsusceptible (DNS) vancomycin-resistant E. faecium (VRE) isolate. Phage-antibiotic combinations (PAC) have been proposed for resistant high-inoculum infections. We aimed to identify PAC with maximum bactericidal activity and prevention/reversal of phage and antibiotic resistance in an SEV PK/PD model against DNS isolate R497. Phage-antibiotic synergy (PAS) was evaluated with modified checkerboard MIC and 24-h time-kill analyses (TKA). Human-simulated antibiotic doses of DAP and CPT with phages NV-497 and NV-503-01 were then evaluated in 96-h SEV PK/PD models against R497. Synergistic and bactericidal activity was identified with the PAC of DAP-CPT combined with phage cocktail NV-497–NV-503-01, demonstrating a significant reduction in viability down to 3-log10 CFU/g (–Δ, 5.77-log10 CFU/g; P < 0.001). This combination also demonstrated isolate resensitization to DAP. Evaluation of phage resistance post-SEV demonstrated prevention of phage resistance for PACs containing DAP-CPT. Our results provide novel data highlighting bactericidal and synergistic activity of PAC against a DNS E. faecium isolate in a high-inoculum ex vivo SEV PK/PD model with subsequent DAP resensitization and prevention of phage resistance. IMPORTANCE Our study supports the additional benefit of standard-of-care antibiotics combined with a phage cocktail compared to antibiotic alone against a daptomycin-nonsusceptible (DNS) E. faecium isolate in a high-inoculum simulated endocardial vegetation ex vivo PK/PD model. E. faecium is a leading cause of hospital-acquired infections and is associated with significant morbidity and mortality. Daptomycin is considered the first-line therapy for vancomycin-resistant E. faecium (VRE), but the highest published doses have failed to eradicate some VRE isolates. The addition of a β-lactam to daptomycin may result in synergistic activity, but previous in vitro data demonstrate that daptomycin plus ceftaroline failed to eradicate a VRE isolate. Phage therapy as an adjunct to antibiotic therapy has been proposed as a salvage therapy for high-inoculum infections; however, pragmatic clinical comparison trials for endocarditis are lacking and difficult to design, reinforcing the timeliness of such analysis.

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