自佐剂糖结合疫苗的最新进展

Q1 Pharmacology, Toxicology and Pharmaceutics Drug Discovery Today: Technologies Pub Date : 2020-12-01 DOI:10.1016/j.ddtec.2020.11.006
Yoshiyuki Manabe , Tsung-Che Chang , Koichi Fukase
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引用次数: 4

摘要

与配制成佐剂和抗原混合物的传统疫苗相比,自佐剂疫苗由与明确定义的佐剂共价结合的抗原组成。在自佐剂疫苗中,通常使用先天免疫受体配体作为佐剂。先天免疫受体配体通过激活先天免疫,有效触发获得性免疫,增强宿主对抗原的免疫应答。当使用自佐剂疫苗时,免疫细胞同时摄取抗原和佐剂,因为它们是共价连接的。因此,佐剂可以特异性地诱导针对结合抗原的免疫应答。重要的是,自佐剂疫苗不需要同时使用额外的佐剂或固定载体蛋白,这可以避免使用高毒性佐剂或诱导不希望的免疫反应。鉴于这些优异的特性,自佐剂疫苗有望成为下一代疫苗的候选疫苗。在此,我们回顾了疫苗佐剂,重点是佐剂用于自佐剂疫苗,然后概述了自佐剂结合疫苗的最新进展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Recent advances in self-adjuvanting glycoconjugate vaccines

Compared to traditional vaccines that are formulated into mixtures of an adjuvant and an antigen, a self-adjuvanting vaccine consists of an antigen that is covalently conjugated to a well-defined adjuvant. In self-adjuvanting vaccines, innate immune receptor ligands are usually used as adjuvants. Innate immune receptor ligands effectively trigger acquired immunity through the activation of innate immunity to enhance host immune responses to antigens. When a self-adjuvanting vaccine is used, immune cells simultaneously uptake the antigen and the adjuvant because they are covalently linked. Consequently, the adjuvant can specifically induce immune responses against the conjugated antigen. Importantly, self-adjuvanting vaccines do not require co-administration of additional adjuvants or immobilization to carrier proteins, which enables avoidance of the use of highly toxic adjuvants or the induction of undesired immune responses. Given these excellent properties, self-adjuvanting vaccines are expected to serve as candidates for the next generation of vaccines. Herein, we review vaccine adjuvants, with a focus on the adjuvants used in self-adjuvanting vaccines, and then overview recent advances made with self-adjuvanting conjugate vaccines.

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来源期刊
Drug Discovery Today: Technologies
Drug Discovery Today: Technologies Pharmacology, Toxicology and Pharmaceutics-Drug Discovery
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期刊介绍: Discovery Today: Technologies compares different technological tools and techniques used from the discovery of new drug targets through to the launch of new medicines.
期刊最新文献
Proteomics advances towards developing SARS-CoV-2 therapeutics using in silico drug repurposing approaches Application of proteomic data in the translation of in vitro observations to associated clinical outcomes Advances in sample preparation for membrane proteome quantification Application of proteomics to understand maturation of drug metabolizing enzymes and transporters for the optimization of pediatric drug therapy Data-independent acquisition (DIA): An emerging proteomics technology for analysis of drug-metabolizing enzymes and transporters
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