脂质纳米粒子介导的 CRISPR-Cas13a 传播用于控制细菌感染。

IF 10 2区 医学 Q1 ENGINEERING, BIOMEDICAL
Bookun Kim, Hwi Won Seo, Kyuri Lee, Dongeun Yong, Yoon Kyung Park, Yujin Lee, Solip Lee, Do-Wan Kim, Dajeong Kim, Choong-Min Ryu
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引用次数: 0

摘要

脂质纳米颗粒(LNPs)可帮助在动物细胞内输送核酸,这一点已在 COVID-19 疫苗开发中得到证实。然而,适用于细菌的 LNPs 还未见报道。本文筛选了 511 种含有不同脂质成分随机组合的 LNP,发现 LNP 496 和 LNP 470 这两种 LNP 能有效地将质粒输送到大肠杆菌 BW25113 中。由于革兰氏阴性细菌具有脂质双分子层,因此使用 LNP-helper 对细菌进行预处理,以削弱细菌膜。当阳离子脂质 DOTAP 在 LNP 中的摩尔比为 10-25 摩尔%时,它能改善 LNP 封装质粒 DNA 的输送。LNP 包囊 Cas13a/gRNA 表达载体与无细胞毒性浓度的多粘菌素 B(一种细菌膜破坏剂)结合使用时,可控制临床埃希氏菌株在 Galleria mellonela 幼虫和小鼠感染模型中的感染。这些研究结果表明,LNPs 可以作为抗病原菌感染的药物输送平台。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Lipid Nanoparticle-Mediated CRISPR-Cas13a Delivery for the Control of Bacterial Infection.

Lipid nanoparticles (LNPs) can assist in the delivery of nucleic acid inside animal cells, as demonstrated by their use in COVID-19 vaccine development. However, LNPs applicable to bacteria have not been reported. Here, the screening of 511 LNPs containing random combinations of different lipid components identified two LNPs, LNP 496 and LNP 470, that efficiently delivered plasmids into Escherichia coli BW25113. Since Gram-negative bacteria have lipid bilayers, the bacteria are pretreated with LNP-helper that weakens the bacterial membrane. The cationic lipid DOTAP improved delivery of LNP-encapsulated plasmid DNA when present at a molar ratio of 10-25 mol% in the LNP. LNP encapsulation of the Cas13a/gRNA expression vector controlled infection by a clinical Escherichia strain in Galleria mellonela larvae and mouse infection models when used in combination with non-cytotoxic concentrations of polymyxin B, a bacterial membrane disruptor. Together, the results show that LNPs can be useful as a delivery platform for agents that counteract pathogenic bacterial infections.

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来源期刊
Advanced Healthcare Materials
Advanced Healthcare Materials 工程技术-生物材料
CiteScore
14.40
自引率
3.00%
发文量
600
审稿时长
1.8 months
期刊介绍: Advanced Healthcare Materials, a distinguished member of the esteemed Advanced portfolio, has been dedicated to disseminating cutting-edge research on materials, devices, and technologies for enhancing human well-being for over ten years. As a comprehensive journal, it encompasses a wide range of disciplines such as biomaterials, biointerfaces, nanomedicine and nanotechnology, tissue engineering, and regenerative medicine.
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