Mucus adhesion vs. mucus penetration? Screening nanomaterials for nasal inhalation by MD simulation

纳米载体 粘液 药物输送 鼻腔给药 聚乙二醇 渗透(战争) PLGA公司 化学 壳聚糖 粘液纤毛清除率 黏膜黏附 粘蛋白 体内 吸入 纳米颗粒 生物物理学 毒品携带者 纳米技术 材料科学 药理学 有机化学 生物化学 医学 生物技术 工程类 内科学 解剖 生物 运筹学 生态学
作者
Xiaoshu Gao,Xiong Yin,Hening Chen,Xuheng Gao,Jiaxin Dai,Yutong Zhang,Wanhang Zou,Yang Gao,Zhenyan Jiang,Bing Han
出处
期刊:Journal of Controlled Release [Elsevier BV]
卷期号:353: 366-379 被引量:62
标识
DOI:10.1016/j.jconrel.2022.11.051
摘要

Nanocarrier-aided drug delivery techniques have improved the absorption and permeability of drugs in nose-to-brain delivery. However, the molecular properties of nanocarriers during the delivery process are of great interest; in particular, the characteristics when penetrating barriers in vivo are crucial for the screening and optimization of materials for nasal inhalation. In this study, we have focused on two types of delivery systems: mucoadhesive nanoparticles (MAPs) and mucopenetrating nanoparticles (MPPs); both have been widely used for mucosal delivery, although a method for selecting the more effective type of drug carriers for mucosal delivery has not been established. Molecular dynamics (MD) simulations were used to reveal the all-atom dynamic characteristics of the interaction between different delivery systems and the nasal mucus protein MUC5AC. Among the systems tested, hydroxypropyltrimethyl ammonium chloride chitosan (HTCC) had the strongest interaction with mucin, suggesting it had better mucoadhesive performance, and that it interacted with MUC5AC more strongly than unmodified chitosan. In contrast, the mucus-penetrating material polyethylene glycol-poly lactic acid-co-glycolic acid (PEG-PLGA), had almost no interaction with MUC5AC. The results of the MD simulations were verified by in vitro experiments on nanoparticles (NPs) and mucin binding. The drug delivery performance of the four types of NPs, analyzed by in vitro and ex vivo mucosal penetration, were all generally consistent with the properties of the material predicted from the MD simulation. These clues to the molecular mechanism of MAPs and MPPs may provide useful insight into the screening and optimization of nanomaterials suitable for nasal inhalation.
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