用于 RNA/DNA 疫苗的先进生物聚合物材料和纳米系统:综述。

Nanomedicine (London, England) Pub Date : 2024-01-01 Epub Date: 2024-08-07 DOI:10.1080/17435889.2024.2382077
Luis F T Pereira, João G R Tredus, Larissa O Corá, Luisa L Novacki, Gabriel E D Oliveira, Mariana Vodiani, Isabela P Dias, Rafael X V Filho, Guilherme F Picheth
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引用次数: 0

摘要

后 COVID-19 大流行时代出现了更高效的疫苗,这些疫苗均基于遗传物质。然而,要扩大核成分疫苗的使用范围,仍需要新一代的纳米系统,特别是能提高 RNA/DNA 稳定性、半衰期和方便给药的纳米系统。本综述重点介绍了完全由生物聚合物材料构成的纳米结构中 mRNA 和 pDNA 疫苗的新进展。最新进展表明,通过调整生物聚合物的结构特征和核酸的有效性,新一代疫苗可能会诞生。生物聚合物所具有的优势,如更高的稳定性和靶向能力,可能会在免疫领域引发一场革命,为全世界提供可迅速适应的有效配方。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Advanced biopolymeric materials and nanosystems for RNA/DNA vaccines: a review.

The post COVID-19 pandemic era has emerged with more efficient vaccines, all based on genetic materials. However, to expand the use of nucleic components as vaccines, a new generation of nanosystems particularly constructed to increase RNA/DNA stability, half-life and facilitate administration are still required. This review highlights novel developments in mRNA and pDNA vaccines formulated into nanostructures exclusively composed by biopolymeric materials. Recent advances suggest that a new generation of vaccines may arise by adapting the structural features of biopolymers with the effectiveness of nucleic acids. The advantages offered by biopolymers, such as increased stability and targeting ability may cause a revolution in the immunization field for offering promptly adaptable and effective formulations for worldwide distribution.

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