信使核糖核酸纳米递送系统:靶向策略和给药途径。

IF 8.1 Q1 ENGINEERING, BIOMEDICAL
Mujie Yuan, Zeyu Han, Yan Liang, Yong Sun, Bin He, Wantao Chen, Fan Li
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引用次数: 0

摘要

随着冠状病毒疾病(新冠肺炎)信使核糖核酸(mRNA)疫苗的巨大成功,mRNA疗法在预防和治疗各种难治性疾病方面取得了重大进展。为了在体内有效发挥作用并克服临床限制,信使核糖核酸需要安全稳定的载体和合理的给药途径,绕过多种生物屏障,实现信使核糖核酸的器官特异性靶向递送。代表领先载体方法的基于纳米粒子(NP)的递送系统确保了mRNA在细胞内成功递送到靶器官。本文综述了信使核糖核酸的化学修饰和各种类型的高级信使核糖核酸NPs,包括脂质NPs和聚合物。强调了被动靶向,特别是内源性靶向和主动靶向在信使核糖核酸纳米递送中的重要性,并讨论了不同的细胞内吞机制。最重要的是,基于上述内容和体内各器官的生理结构特征,对靶向不同器官和细胞的信使核糖核酸纳米粒子的设计策略进行了分类和讨论。此外,还强调了行政路线对目标设计的影响。最后,展望了信使核糖核酸靶向治疗和精准医学的剩余挑战和未来发展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

mRNA nanodelivery systems: targeting strategies and administration routes.

mRNA nanodelivery systems: targeting strategies and administration routes.

mRNA nanodelivery systems: targeting strategies and administration routes.

mRNA nanodelivery systems: targeting strategies and administration routes.

With the great success of coronavirus disease (COVID-19) messenger ribonucleic acid (mRNA) vaccines, mRNA therapeutics have gained significant momentum for the prevention and treatment of various refractory diseases. To function efficiently in vivo and overcome clinical limitations, mRNA demands safe and stable vectors and a reasonable administration route, bypassing multiple biological barriers and achieving organ-specific targeted delivery of mRNA. Nanoparticle (NP)-based delivery systems representing leading vector approaches ensure the successful intracellular delivery of mRNA to the target organ. In this review, chemical modifications of mRNA and various types of advanced mRNA NPs, including lipid NPs and polymers are summarized. The importance of passive targeting, especially endogenous targeting, and active targeting in mRNA nano-delivery is emphasized, and different cellular endocytic mechanisms are discussed. Most importantly, based on the above content and the physiological structure characteristics of various organs in vivo, the design strategies of mRNA NPs targeting different organs and cells are classified and discussed. Furthermore, the influence of administration routes on targeting design is highlighted. Finally, an outlook on the remaining challenges and future development toward mRNA targeted therapies and precision medicine is provided.

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