骨整合
生物粘附
化学
微泡
信使核糖核酸
细胞生物学
外体
间充质干细胞
生物医学工程
骨形态发生蛋白2
药物输送
植入
小RNA
纳米技术
翻译(生物学)
生物材料
自噬
骨形态发生蛋白
钛
丝素
成骨细胞
微粒
非翻译区
骨组织
作者
Zhujun Yang,Dong Yan,Zhiwei Dong,Pengyu Zhao,Yichen Li,Liang Kong,Yi-min Zhao,Zhongshan Wang
出处
期刊:Small
[Wiley]
日期:2025-11-09
卷期号:: e10386-e10386
标识
DOI:10.1002/smll.202510386
摘要
Abstract Rapid osseointegration of titanium implants remains challenging under pathological conditions. This study develops an engineered exosome‐based mRNA delivery system for osteogenic regulation. Through co‐transfection with BMP2 and Paip2 plasmids, Exosomes (Exo en ) loaded with untranslated Bmp2 mRNA are generated, exhibiting an eight‐fold increase over naive exosomes and a three‐fold enhancement compared to BMP2‐only exosomes. These vesicles are functionalized with a cholesterol‐anchored E7 peptide for BMSC targeting and immobilized on a titanium implant via a mussel adhesive protein coating (Exo en ‐E7@TiM). The system enables targeted, sustained delivery of Bmp2 mRNA to BMSCs. Once internalized, the mRNA utilizes an internal ribosome entry site (IRES) to initiate translation, effectively bypassing the original suppression and driving robust BMP2 protein expression. Exo en ‐E7@TiM significantly enhanced osteogenic differentiation of human bone mesenchymal stem cells (hBMSCs) in vitro, upregulating key markers and accelerating mineralization. In rat tibiae, it substantially improved new bone formation and bone‐implant contact vs controls. This integrated strategy combines exosome‐mediated nucleic acid delivery, biological targeting, and bioadhesive immobilization to significantly enhance osseointegration, showing considerable promise for clinical applications in compromised bone healing.
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