Abstract
Both acute and chronic cutaneous wounds are often difficult to treat due to the high-risk for bacterial contamination. Once hospitalized, open wounds are at a high-risk for developing hospital-associated infections caused by multi drug-resistant bacteria such as Staphylococcus aureus and Pseudomonas aeruginosa. Treating these infections is challenging, not only because of antibiotic resistance, but also due to the production of biofilms. New treatment strategies are needed that will help in both stimulating the wound healing process, as well as preventing and eliminating bacterial wound infections. Fusaricidins are naturally occurring cyclic lipopeptides with antimicrobial properties that have shown to be effective against a variety of fungi and Gram-positive bacteria, with low toxicity. Continuing with our efforts toward the identification of novel cyclic lipopeptides Fusaricidin analogs, herein we report the synthesis and evaluation of the antimicrobial activity for two novel cyclic lipopeptides (CLP), CLP 2605-4 and CLP 2612-8.1 against methicillin resistant S. aureus and P. aeruginosa, respectively, in in vivo porcine full thickness wound model. Both CLPs were able to reduce bacterial counts by approximately 3 log CFU/g by the last assessment day. Peptide 2612-8.1 slightly enhanced the wound healing, however, wounds treated with peptide 2605-4, have shown higher levels of inflammation and impaired wound healing process. This study highlights the importance of identifying new antimicrobials that can combat bacterial infection while not impeding tissue repair.
Highlights
One of the most significant issues for the field of cutaneous wound care is the prevention and treatment of infections
To identify the efficacy of novel compounds to treat cutaneous wounds and associated infections, this study examined the antimicrobial effects of two cyclic lipopeptides (CLP) as well as their influence on wound healing
The alarming spread of multi drug-resistant S. aureus and P. aeruginosa causing wound infections, has broadened the search for viable antimicrobials that will prove beneficial to wound healing while controlling infections (Banin et al, 2017)
Summary
One of the most significant issues for the field of cutaneous wound care is the prevention and treatment of infections. Persistent wound infections are the most frequent complication of the chronic non-healing wounds (Mustoe, 2004; Sen et al, 2009) and are a leading cause of non-traumatic amputations in diabetic patients (Ivanetich et al, 1976; Boulton et al, 2020) Staphylococcus aureus, in both methicillin resistant (MRSA) and sensitive (MSSA) form, and Cyclic Lipopeptides Treating Wound Infections. There are few combination antimicrobial modalities such as daptomycin with moxifloxacin plus clarithromycin that have shown the potential capacity against S. aureus, such as MSSA (SH1000) and MRSA (N315), to prevent and disrupt the formation of biofilms (Raad et al, 2007; Parra-Ruiz et al, 2010) This prompted the search for antimicrobials that utilize different modes of action compared to conventional antibiotics and may belong to a new class of drugs, thereby reducing the progression of antibiotic resistance
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