Block catiomers with flanking hydrolyzable tyrosinate groups enhance in vivo mRNA delivery via π-π stacking-assisted micellar assembly.

IF 7.4 3区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY Science and Technology of Advanced Materials Pub Date : 2023-01-01 DOI:10.1080/14686996.2023.2170164
Wenqian Yang, Takuya Miyazaki, Yasuhiro Nakagawa, Eger Boonstra, Keita Masuda, Yuki Nakashima, Pengwen Chen, Lucas Mixich, Kevin Barthelmes, Akira Matsumoto, Peng Mi, Satoshi Uchida, Horacio Cabral
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引用次数: 4

Abstract

Messenger RNA (mRNA) therapeutics have recently demonstrated high clinical potential with the accelerated approval of SARS-CoV-2 vaccines. To fulfill the promise of unprecedented mRNA-based treatments, the development of safe and efficient carriers is still necessary to achieve effective delivery of mRNA. Herein, we prepared mRNA-loaded nanocarriers for enhanced in vivo delivery using biocompatible block copolymers having functional amino acid moieties for tunable interaction with mRNA. The block copolymers were based on flexible poly(ethylene glycol)-poly(glycerol) (PEG-PG) modified with glycine (Gly), leucine (Leu) or tyrosine (Tyr) via ester bonds to generate block catiomers. Moreover, the amino acids can be gradually detached from the block copolymers after ester bond hydrolyzation, avoiding cytotoxic effects. When mixed with mRNA, the block catiomers formed narrowly distributed polymeric micelles with high stability and enhanced delivery efficiency. Particularly, the micelles based on tyrosine-modified PEG-PG (PEG-PGTyr), which formed a polyion complex (PIC) and π-π stacking with mRNA, displayed excellent stability against polyanions and promoted mRNA integrity in serum. PEG-PGTyr-based micelles also increased the cellular uptake and the endosomal escape, promoting high protein expression both in vitro and in vivo. Furthermore, the PEG-PGTyr-based micelles significantly extended the half-life of the loaded mRNA after intravenous injection. Our results highlight the potential of PEG-PGTyr-based micelles as safe and effective carriers for mRNA, expediting the rational design of polymeric materials for enhanced mRNA delivery.

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通过π-π堆积辅助胶束组装,具有侧侧可水解酪氨酸基团的嵌段络合物增强了mRNA在体内的传递。
随着SARS-CoV-2疫苗的加速批准,信使RNA (mRNA)疗法最近显示出很高的临床潜力。为了实现前所未有的基于mRNA的治疗,开发安全高效的载体仍然是实现mRNA有效递送的必要条件。本文中,我们利用具有可调节与mRNA相互作用的功能性氨基酸片段的生物相容性嵌段共聚物制备了mRNA负载纳米载体,以增强其体内递送。嵌段共聚物是基于柔性聚乙二醇-聚甘油(PEG-PG),由甘氨酸(Gly)、亮氨酸(Leu)或酪氨酸(Tyr)通过酯键修饰而成的嵌段聚合物。此外,在酯键水解后,氨基酸可以逐渐从嵌段共聚物上分离,避免细胞毒性作用。当与mRNA混合时,嵌段络合物形成窄分布的聚合物胶束,具有高稳定性和增强的传递效率。特别是酪氨酸修饰的PEG-PG (PEG-PGTyr)胶束与mRNA形成多离子复合物(PIC)和π-π堆积,对多阴离子表现出良好的稳定性,促进了血清中mRNA的完整性。peg - pgtyr基胶束也增加了细胞摄取和内体逃逸,促进了体外和体内的高蛋白表达。此外,peg - pgtyr基胶束在静脉注射后显著延长了负载mRNA的半衰期。我们的研究结果突出了peg - pgtyr胶束作为mRNA安全有效载体的潜力,加快了聚合物材料的合理设计,以增强mRNA的传递。
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来源期刊
Science and Technology of Advanced Materials
Science and Technology of Advanced Materials 工程技术-材料科学:综合
CiteScore
10.60
自引率
3.60%
发文量
52
审稿时长
4.8 months
期刊介绍: Science and Technology of Advanced Materials (STAM) is a leading open access, international journal for outstanding research articles across all aspects of materials science. Our audience is the international community across the disciplines of materials science, physics, chemistry, biology as well as engineering. The journal covers a broad spectrum of topics including functional and structural materials, synthesis and processing, theoretical analyses, characterization and properties of materials. Emphasis is placed on the interdisciplinary nature of materials science and issues at the forefront of the field, such as energy and environmental issues, as well as medical and bioengineering applications. Of particular interest are research papers on the following topics: Materials informatics and materials genomics Materials for 3D printing and additive manufacturing Nanostructured/nanoscale materials and nanodevices Bio-inspired, biomedical, and biological materials; nanomedicine, and novel technologies for clinical and medical applications Materials for energy and environment, next-generation photovoltaics, and green technologies Advanced structural materials, materials for extreme conditions.
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