Combined Efficacy of an Antimicrobial Cationic Peptide Polymer with Conventional Antibiotics to Combat Multidrug-Resistant Pathogens

抗生素 抗菌剂 多重耐药 微生物学 抗生素耐药性 抗菌肽 生物 医学 生物化学
作者
Kishore Reddy Venkata Thappeta,Yogesh Shankar Vikhe,Adeline Mei Hui Yong,Mary B. Chan‐Park,Kimberly A. Kline
出处
期刊:ACS Infectious Diseases [American Chemical Society]
卷期号:6 (5): 1228-1237 被引量:67
标识
DOI:10.1021/acsinfecdis.0c00016
摘要

Antibiotic-resistant infections are predicted to kill 10 million people worldwide per year by 2050 and to cost the global economy 100 trillion USD. Novel approaches and alternatives to conventional antibiotics are urgently required to combat antimicrobial resistance. We have synthesized a chitosan-based oligolysine antimicrobial peptide, CSM5-K5 (where CSM denotes chitosan monomer repeat units and K denotes lysine amino acid repeat units), that targets multidrug-resistant (MDR) bacterial species. Here, we show that CSM5-K5 exhibits rapid bactericidal activity against methicillin-resistant Staphylococcus aureus (MRSA), MDR Escherichia coli, and vancomycin-resistant Enterococcus faecalis (VRE). Combinatorial therapy of CSM5-K5 with antibiotics to which each organism is otherwise resistant restores sensitivity to the conventional antibiotic. CSM5-K5 alone significantly reduced preformed bacterial biofilm by 2-4 orders of magnitude and, in combination with conventional antibiotics, reduced preformed biofilm by more than 2-3 orders of magnitude at subinhibitory concentrations. Moreover, using a mouse excisional wound infection model, CSM5-K5 treatment reduced bacterial burdens by 1-3 orders of magnitude and acted synergistically with oxacillin, vancomycin, and streptomycin to clear MRSA, VRE, and MDR E. coli, respectively. Importantly, little to no resistance against CSM5-K5 arose for any of the three MDR bacteria during 15 days of serial passage. Furthermore, low level resistance to CSM5-K5 that did arise for MRSA conferred increased susceptibility (collateral sensitivity) to the β-lactam antibiotic oxacillin. This work demonstrates the feasibility and benefits of using this synthetic cationic peptide as an alternative to, or in combination with, traditional antibiotics to treat infections caused by MDR bacteria.
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