Targeted Delivery of Antibiotic Therapy to Inhibit Pseudomonas aeruginosa Using Lipid-Coated Mesoporous Silica Core–Shell Nanoassembly

抗生素 铜绿假单胞菌 抗菌剂 微生物学 细菌 粘菌素 化学 介孔二氧化硅 药理学 脂质体 抗菌活性 药物输送 纳米载体 药品 生物 生物化学 介孔材料 有机化学 催化作用 遗传学
作者
Kavini Rathnayake,Unnati Patel,Chi Hoa Pham,Anna McAlpin,Travis Budisalich,H. Surangi N. Jayawardena
出处
期刊:ACS applied bio materials [American Chemical Society]
卷期号:3 (10): 6708-6721 被引量:43
标识
DOI:10.1021/acsabm.0c00622
摘要

Pseudomonas aeruginosa (PA) is an opportunistic pathogen, which causes serious lung infections in immunocompromised patients. Traditional oral intake of large quantities of small-molecule antibiotics to treat bacterial infections leads to off-target toxicity and development of drug-resistant species. Improved delivery systems of antibiotics to the targeted site of bacterial infections would help reduce the need for a high intake of antibiotics. Colistin (Col), an antibacterial peptide, is considered the last resort treatment for multidrug resistant (MDR)-PA. To approach the problem of development of antibacterial resistance and off-target toxicity due to the use of excessive amounts of antibiotics, we have designed a targeted drug delivery nanoassembly, which delivers antibiotics to extracellular and intracellular bacteria. The nanoassembly is composed of (1) drug (Col)-loaded mesoporous silica (MSN) core (Col@MSN), (2) liposomal shell (Col@MSN@LL), and (3) PA-targeting LL-37 peptide (Col@MSN@LL-(LL-37)). The liposomal shell prevents premature drug release before the nanoassembly approaches the targeted bacteria. The liposome bilayer degrades upon excreted lipase present in the local environment of PA, releasing encapsulated Col. There is a significant increase in Col release (∼90% release within 40 h) in the presence of bacteria compared to the absence of bacteria (only ∼75% release after 80 h). A 6.7-fold increase in the antimicrobial efficacy of Col encapsulated in Col@MSN@LL-(LL-37) was seen compared to free Col. All studies were done using a clinical strain of PA14. Col@MSN@LL-(LL-37) successfully targets and inhibits intracellular PA14 within the lung epithelial cells. Only 7% PA14 viability is seen after treating the lung epithelial cells with Col@MSN@LL-(LL-37). No significant cytotoxicity was observed with Col@MSN@LL-(LL-37). Therefore, this discussed lipid-coated targeted nanoassembly can be considered as a successful antibiotic delivery platform.
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