Department of Bioengineering, Graduate School of Engineering, The University of Tokyo, Bunkyo, Tokyo 113-8656, Japan.
Innovation Center of NanoMedicine (iCONM), Kawasaki Institute of Industrial Promotion, Kawasaki, Kanagawa 210-0821, Japan.
J Biomed Mater Res A. 2019 May;107(5):978-990. doi: 10.1002/jbm.a.36614. Epub 2019 Jan 31.
Nonviral delivery of plasmid (p)DNA or messenger (m)RNA is a safe and promising therapeutic option to continuously supply therapeutic proteins into diseased tissues. In most cases of in vivo pDNA and mRNA delivery, these nucleic acids are loaded into carriers based on cationic polymers and/or lipids to prevent nuclease-mediated degradation before reaching target cells. The carriers should also evade host clearance mechanisms, including uptake by scavenger cells and filtration in the spleen. Installation of ligands onto the carriers can facilitate their rapid uptake into target cells. Meanwhile, carrier toxicity should be minimized not only for preventing undesirable adverse responses in patients, but also for preserving the function of transfected cells to exert therapeutic effects. Long-term progressive improvement of platform technologies has helped overcome most of these issues, though some still remain hindering the widespread clinical application of nonviral pDNA and mRNA delivery. This review discusses design concepts of nonviral carriers for in vivo delivery and the issues to be overcome, focusing especially on our own efforts using polyplex micelles. © 2019 Wiley Periodicals, Inc. J Biomed Mater Res Part A: 107A: 978-990, 2019.
非病毒载体将质粒(p)DNA 或信使(m)RNA 递送至病变组织,持续提供治疗性蛋白,是一种安全且有前景的治疗选择。在体内 pDNA 和 mRNA 递送的大多数情况下,这些核酸被加载到基于阳离子聚合物和/或脂质的载体中,以防止在到达靶细胞之前被核酸酶介导降解。载体还应逃避宿主清除机制,包括被吞噬细胞摄取和脾脏过滤。将配体安装到载体上可以促进其快速被靶细胞摄取。同时,载体毒性不仅应最小化,以防止患者出现不良的不良反应,还应保护转染细胞的功能以发挥治疗作用。平台技术的长期逐步改进有助于克服这些问题,但仍有一些问题阻碍了非病毒 pDNA 和 mRNA 递送的广泛临床应用。本文讨论了用于体内递送的非病毒载体的设计概念和需要克服的问题,特别关注我们使用聚合物胶束的努力。© 2019 Wiley Periodicals, Inc. J 生物材料研究杂志 A 部分:107A:978-990,2019。
