151. Coupling of nanostraws with diverse physicochemical perforation strategies for intracellular DNA delivery.
- Author
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Jiang, Juan, Liu, Jing, Liu, Xinmin, Xu, Xingyuan, Liu, Zhengjie, Huang, Shuang, Huang, Xinshuo, Yao, Chuanjie, Wang, Xiafeng, Chen, Yixin, Chen, Hui-jiuan, Wang, Ji, and Xie, Xi
- Subjects
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GENE transfection , *PHOTOTHERMAL effect , *GENE therapy , *NUCLEIC acids , *ELECTRIC fields , *POLYETHYLENEIMINE , *DNA - Abstract
Effective intracellular DNA transfection is imperative for cell-based therapy and gene therapy. Conventional gene transfection methods, including biochemical carriers, physical electroporation and microinjection, face challenges such as cell type dependency, low efficiency, safety concerns, and technical complexity. Nanoneedle arrays have emerged as a promising avenue for improving cellular nucleic acid delivery through direct penetration of the cell membrane, bypassing endocytosis and endosome escape processes. Nanostraws (NS), characterized by their hollow tubular structure, offer the advantage of flexible solution delivery compared to solid nanoneedles. However, NS struggle to stably self-penetrate the cell membrane, resulting in limited delivery efficiency. Coupling with extra physiochemical perforation strategies is a viable approach to improve their performance. This study systematically compared the efficiency of NS coupled with polyethylenimine (PEI) chemical modification, mechanical force, photothermal effect, and electric field on cell membrane perforation and DNA transfection. The results indicate that coupling NS with PEI modification, mechanical force, photothermal effects provide limited enhancement effects. In contrast, NS-electric field coupling significantly improves intracellular DNA transfection efficiency. This work demonstrates that NS serve as a versatile platform capable of integrating various physicochemical strategies, while electric field coupling stands out as a form worthy of primary consideration for efficient DNA transfection. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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