渗透(战争)
粘液
化学
生物物理学
粘蛋白
甲基丙烯酸酯
纳米颗粒
上皮
聚合物
药物输送
粘附
表面电荷
纳米技术
细胞培养
细胞
毒品携带者
脂质体
细胞粘附
内化
化学工程
细胞生物学
硅酮
细胞膜
糖蛋白
膜
MUC1号
作者
Corey A. Stevens,Boris Sevarika,Brian K. Wilson,Chia Ming Wang,Gerardo Cárcamo‐Oyarce,Joseph R. Romeo,George Degen,Timothy Kassis,Claus-Michael Lehr,Rebecca L. Carrier,Katharina Ribbeck,ROBERT K. PRUD'HOMME
出处
期刊:Nano Letters
[American Chemical Society]
日期:2025-11-21
标识
DOI:10.1021/acs.nanolett.5c02487
摘要
Mucus, a viscoelastic gel composed of dense mucin glycoprotein networks, acts as a major barrier to therapeutic delivery across all epithelial surfaces by trapping nanoparticles (NPs) and preventing access to the underlying cells. To address this, we developed mucus-evading yet cell-sticky (MECS) NPs with tunable surface charge using Flash NanoPrecipitation. These 100-nanometer-diameter MECS NPs incorporate a small amount (5 wt %) of polycationic dimethylaminoethyl methacrylate (PDMAEMA) into a dense, neutral poly(ethylene glycol) (PEG) corona, which enables mucus penetration while also driving epithelial cell adhesion. In vitro cell culture and physiologically relevant gut-on-a-chip organoids demonstrate MECS NPs penetrate mucus as effectively as purely PEGylated control NPs, while exhibiting a 45-fold increase in binding to epithelial cells. This dual functionality represents a generalizable strategy for overcoming the long-standing trade-off between mucodiffusion and cellular uptake in mucosal drug delivery.
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