A polymyxin B loaded hypoxia-responsive liposome with improved biosafety for efficient eradication of bacterial biofilms

生物安全 生物膜 多粘菌素B 脂质体 多粘菌素 缺氧(环境) 微生物学 化学 抗生素 生物 氧气 细菌 生物技术 生物化学 遗传学 有机化学
作者
Fang Liu,Lingyun Zou,Yongcheng Chen,Zuolong Liu,Yue Huang,Qiao Jin,Jian Ji
出处
期刊:Nano Research [Springer Science+Business Media]
卷期号:17 (9): 8325-8336 被引量:14
标识
DOI:10.1007/s12274-024-6828-6
摘要

Biofilm-associated bacterial infection brings serious threats to global public health owing to serious antibiotic resistance. It is urgently needed to develop innovative strategies to combat biofilm-associated bacterial infections. Polymyxins stand out as the last line of defense against Gram-negative bacteria. However, serious nephrotoxicity of polymyxins severely limits their clinical utility. Herein, a hypoxia-responsive liposome is designed as the nanocarrier of polymyxin B (PMB) to combat biofilms developed by Gram-negative bacteria. A metronidazole modified lipid (hypoxia-responsive lipid (HRLipid)) is synthesized to fabricate hypoxia-responsive liposomes (HRLip). PMB loaded hypoxia-responsive liposomes (HRL-PMB) is then prepared to mitigate the nephrotoxicity of PMB while preserving its excellent bactericidal activity. HRL-PMB shows very low hemolysis and cytotoxicity due to liposomal encapsulation of PMB. PMB can be readily released from HRL-PMB in response to hypoxic biofilm microenvironment, exerting its bactericidal activity to realize biofilm eradication. The excellent in vivo antibiofilm ability of HRL-PMB is confirmed by a Pseudomonas aeruginosa infected zebrafish model and a P. aeruginosa pneumonia infection model. Meanwhile, HRL-PMB can greatly reduce the nephrotoxicity of PMB after intravenous injection. The hypoxia-sensitive liposomes held great promise to improve the biosafety of highly toxic antibiotics while preserving their intrinsic bactericidal ability, which may provide an innovative strategy for combating biofilm-associated infections.
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