Abstract
BackgroundTreatment of P. aeruginosa wound infection is challenging due to its inherent and acquired resistance to many conventional antibiotics. Cationic antimicrobial peptides (CAMPs) with distinct modes of antimicrobial action have been considered as the next-generation therapeutic agents. In the present study, a murine skin surgical wound infection model was used to evaluate the in vivo toxicity and efficacy of two newly designed antimicrobial peptides (CAMP-A and CAMP-B), as chemotherapeutic agents to combat P. aeruginosa infection.ResultsIn the first trial, topical application of CAMPs on the wounds at a dose equivalent to 4 × MIC for 7 consecutive days did not cause any significant changes in the physical activities, hematologic and plasma biochemical parameters, or histology of systemic organs of the treated mice. Daily treatment of infected wounds with CAMP-A and CAMP-B for 5 days at a dose equivalent to 2× MIC resulted in a significant reduction in wound bacterial burden (CAMP-A: 4.3 log10CFU/g of tissue and CAMP-B: 5.8 log10CFU/g of tissue), compared to that of the mock-treated group (8.1 log10CFU/g of tissue). Treatment with CAMPs significantly promoted wound closure and induced epidermal cell proliferation. Topical application of CAMP-A on wounds completely prevented systemic dissemination of P. aeruginosa while CAMP-B blocked systemic infection in 67% of mice and delayed the onset of systemic infection by at least 2 days in the rest of the mice (33%). In a second trial, daily application of CAMP-A at higher doses (5× MIC and 50× MIC) didn’t show any significant toxic effect on mice and the treatments with CAMP-A further reduced wound bacterial burden (5× MIC: 4.5 log10CFU/g of tissue and 50× MIC: 3.8 log10CFU/g of tissue).ConclusionsThe data collectively indicated that CAMPs significantly reduced wound bacterial load, promoted wound healing, and prevented hepatic dissemination. CAMP-A is a promising alternative to commonly used antibiotics to treat P. aeruginosa skin infection.
Highlights
Treatment of P. aeruginosa wound infection is challenging due to its inherent and acquired resistance to many conventional antibiotics
In vitro study indicated that cationic antimicrobial peptide (CAMP)-A and CAMP-B effectively inhibited the growth of P. aeruginosa, Staphylococcus aureus, and Staphylococcus pseudintermedius, including clinical isolates resistant to β-lactam antibiotics, chloramphenicol, tetracycline, and sulfamethoxazole [17]
At 48 h post-inoculation, the bacteria spread to the liver of all mice and the average colony-forming units (CFU) counts were around 4 log10 CFU/g (Fig. 1b)
Summary
Treatment of P. aeruginosa wound infection is challenging due to its inherent and acquired resistance to many conventional antibiotics. A murine skin surgical wound infection model was used to evaluate the in vivo toxicity and efficacy of two newly designed antimicrobial peptides (CAMP-A and CAMP-B), as chemotherapeutic agents to combat P. aeruginosa infection. Host cationic antimicrobial peptides (CAMPs) constituting the first line of innate defense [8] have been explored as a new class of antimicrobial agents [9, 10]. These peptides kill microbial pathogens via nonspecific membrane-disruption and binding to intracellular components, which makes it more difficult for microbes to develop resistance [11]. The objective of this study was to evaluate the efficacy of CAMP-A and CAMP-B against P. aeruginosa using a murine skin surgical wound infection model
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