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Combating drug-resistant bacterial infection using biodegradable nanoparticles assembled from comb-like polycarbonates grafted with amphiphilic polyquaternium

Yanliang Dong, Shuyue Zhao, Changrong Wang, Wenshuai Liu, Yumin Zhang, Liandong Deng, Jianhua Zhang, Pingsheng Huang, Weiwei Wang, Anjie Dong

2020Journal of Materials Chemistry B17 citationsDOI

Abstract

Bacterial infection is a serious clinical threat. The misuse of antibiotics has already resulted in the emergence of antibiotic-resistant strains of pathogenic bacteria. Efficient membrane-destructive antibacterial agents are considered as an alternative, promising solution against bacterial infection. Herein, we prepared a new type of comb-like cationic, polyethylene glycol (PEG) block polycarbonates with polyquaternium arms (G-CgQAs). The amphiphilic G-CgQAs could self-assemble into about 60 nm sized nanoparticles (NPs) with positive charges (20~30 mV). G-CgQA-3 NPs with an appropriate hydrophobic-hydrophilic balance in the polyquaternium arms showed antibacterial activity against Gram-negative, Gram-positive, and drug-resistant strains at low concentrations (MIC 64-128 μg mL-1) and low hemolysis (HC50 > 2000 μg mL-1). In vivo anti-infection tests indicated G-CgQA-3 NPs could highly inhibit the growth of vancomycin-resistant bacteria by spraying on wounds. Collectively, G-CgQA NPs hold great promise for the prevention of infection, serving as new antibacterial agents. This study also highlights the significance of a hydrophobic block in positive polyquaternium arms to facilitate the antibacterial activity of cationic, quaternized polymers. The design of comb-like amphiphilic cationic polycarbonates provides a new method for manufacturing antibacterial nano-agents.

Topics & Concepts

AmphiphileCationic polymerizationAntibacterial activityBacteriaMicrobiologyPolyethylene glycolChemistryAntibioticsMaterials sciencePolymerBiologyBiochemistryOrganic chemistryCopolymerGeneticsAntimicrobial agents and applicationsAntimicrobial Peptides and ActivitiesBacterial biofilms and quorum sensing
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