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通用流感疫苗:从病毒到纳米颗粒。

Universal influenza vaccines: from viruses to nanoparticles.

机构信息

a Center for Inflammation, Immunity & Infection , Georgia State University Institute for Biomedical Sciences , Atlanta , GA , USA.

出版信息

Expert Rev Vaccines. 2018 Nov;17(11):967-976. doi: 10.1080/14760584.2018.1541408. Epub 2018 Nov 2.

DOI:10.1080/14760584.2018.1541408
PMID:30365905
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6300164/
Abstract

INTRODUCTION

The current seasonal influenza vaccine confers only limited protection due to waning antibodies or the antigenic shift and drift of major influenza surface antigens. A universal influenza vaccine which induces broad cross-protection against divergent influenza viruses with a comparable or better efficacy to seasonal influenza vaccines against matched strains will negate the need for an annual update of vaccine strains and protect against possible influenza pandemics.

AREAS COVERED

In this review, we summarize the recent progress in nanoparticle-based universal influenza vaccine development. We compared the most potent nanoparticle categories, focusing on how they encapsulate conserved influenza epitopes, stimulate the innate and adaptive immune systems, exhibit antigen depot effect, extend the period for antigen-processing and presentation, and exert an intrinsic adjuvant effect on inducing robust immune responses.

EXPERT COMMENTARY

The development of an effective universal influenza vaccine is an urgent task. Traditional influenza vaccine approaches are not sufficient for preventing recurrent epidemics or occasional pandemics. Nanoparticles are compatible with different immunogens and immune stimulators and can overcome the intrinsically low immunogenicity of conserved influenza virus antigens. We foresee that an affordable universal influenza vaccine will be available within ten years by integrating nanoparticles with other targeted delivery and controlled release technology.

摘要

简介

由于抗体衰减或主要流感表面抗原的抗原转变和漂移,当前的季节性流感疫苗提供的保护作用有限。一种通用的流感疫苗可以诱导针对不同流感病毒的广泛交叉保护,其功效与针对匹配株的季节性流感疫苗相当或更好,这将消除对每年更新疫苗株的需求,并预防可能的流感大流行。

涵盖领域

在这篇综述中,我们总结了基于纳米颗粒的通用流感疫苗开发的最新进展。我们比较了最有效的纳米颗粒类别,重点关注它们如何包封保守的流感表位,刺激先天和适应性免疫系统,表现出抗原储存效应,延长抗原加工和呈递的时间,并对诱导强烈的免疫反应产生内在的佐剂效应。

专家评论

开发有效的通用流感疫苗是当务之急。传统的流感疫苗方法不足以预防反复的流行或偶尔的大流行。纳米颗粒与不同的免疫原和免疫刺激剂兼容,可以克服保守的流感病毒抗原固有的低免疫原性。我们预计,通过将纳米颗粒与其他靶向递药和控释技术相结合,在未来十年内将能够提供一种负担得起的通用流感疫苗。

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