Nanoparticles as Delivery Systems for Antigenic Saccharides: From Conjugation Chemistry to Vaccine Design.

IF 5.2 3区 医学 Q1 IMMUNOLOGY Vaccines Pub Date : 2024-11-19 DOI:10.3390/vaccines12111290
Marie-Jeanne Archambault, Laetitia Mwadi Tshibwabwa, Mélanie Côté-Cyr, Serge Moffet, Tze Chieh Shiao, Steve Bourgault
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Abstract

Glycoconjugate vaccines have been effective in preventing numerous bacterial infectious diseases and have shown recent potential to treat cancers through active immunotherapy. Soluble polysaccharides elicit short-lasting immune responses and are usually covalently linked to immunogenic carrier proteins to enhance the antigen-specific immune response by stimulating T-cell-dependent mechanisms. Nonetheless, the conjugation of purified polysaccharides to carrier proteins complexifies vaccine production, and immunization with protein glycoconjugates can lead to the undesirable immunogenic interference of the carrier. Recently, the use of nanoparticles and nanoassemblies for the delivery of antigenic saccharides has gathered attention from the scientific community. Nanoparticles can be easily functionalized with a diversity of functionalities, including T-cell epitope, immunomodulator and synthetic saccharides, allowing for the modulation and polarization of the glycoantigen-specific immune response. Notably, the conjugation of glycan to nanoparticles protects the antigens from degradation and enhances their uptake by immune cells. Different types of nanoparticles, such as liposomes assembled from lipids, inorganic nanoparticles, virus-like particles and dendrimers, have been explored for glycovaccine design. The versatility of nanoparticles and their ability to induce robust immune responses make them attractive delivery platforms for antigenic saccharides. The present review aims at summarizing recent advancements in the use of nano-scaled systems for the delivery of synthetic glycoantigens. After briefly presenting the immunological mechanisms required to promote a robust immune response against antigenic saccharides, this review will offer an overview of the current trends in the nanoparticle-based delivery of glycoantigens.

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纳米颗粒作为抗原糖的输送系统:从共轭化学到疫苗设计。
糖结合疫苗可有效预防多种细菌感染性疾病,最近还显示出通过主动免疫疗法治疗癌症的潜力。可溶性多糖可引起短暂的免疫反应,通常与免疫原载体蛋白共价连接,通过刺激T细胞依赖机制来增强抗原特异性免疫反应。然而,将纯化的多糖与载体蛋白共轭会使疫苗生产复杂化,而且用蛋白糖共轭物进行免疫会导致载体产生不良的免疫原性干扰。最近,利用纳米颗粒和纳米组合体来递送抗原糖类的方法受到了科学界的关注。纳米颗粒可以很容易地进行功能化,具有多种功能,包括 T 细胞表位、免疫调节剂和合成糖,从而可以调节糖抗原特异性免疫反应并使之极化。值得注意的是,糖类与纳米粒子的共轭可以保护抗原不被降解,并增强免疫细胞对抗原的吸收。在糖疫苗的设计中,人们探索了不同类型的纳米颗粒,如由脂质组装而成的脂质体、无机纳米颗粒、类病毒颗粒和树枝状分子。纳米颗粒的多功能性及其诱导强大免疫反应的能力使其成为具有吸引力的抗原糖递送平台。本综述旨在总结利用纳米级系统递送合成糖抗原的最新进展。在简要介绍促进对抗原糖产生强大免疫反应所需的免疫学机制后,本综述将概述当前基于纳米颗粒的糖抗原递送趋势。
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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来源期刊
Vaccines
Vaccines Pharmacology, Toxicology and Pharmaceutics-Pharmacology
CiteScore
8.90
自引率
16.70%
发文量
1853
审稿时长
18.06 days
期刊介绍: Vaccines (ISSN 2076-393X) is an international, peer-reviewed open access journal focused on laboratory and clinical vaccine research, utilization and immunization. Vaccines publishes high quality reviews, regular research papers, communications and case reports.
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