Polyanhydride nanovaccine against H3N2 influenza A virus generates mucosal resident and systemic immunity promoting protection.

IF 6.9 1区 医学 Q1 IMMUNOLOGY
Christopher E Lopez, Zeb R Zacharias, Kathleen A Ross, Balaji Narasimhan, Thomas J Waldschmidt, Kevin L Legge
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Abstract

Influenza A virus (IAV) causes significant morbidity and mortality worldwide due to seasonal epidemics and periodic pandemics. The antigenic drift/shift of IAV continually gives rise to new strains and subtypes, aiding IAV in circumventing previously established immunity. As a result, there has been substantial interest in developing a broadly protective IAV vaccine that induces, durable immunity against multiple IAVs. Previously, a polyanhydride nanoparticle-based vaccine or nanovaccine (IAV-nanovax) encapsulating H1N1 IAV antigens was reported, which induced pulmonary B and T cell immunity and resulted in cross-strain protection against IAV. A key feature of IAV-nanovax is its ability to easily incorporate diverse proteins/payloads, potentially increasing its ability to provide broad protection against IAV and/or other pathogens. Due to human susceptibility to both H1N1 and H3N2 IAV, several H3N2 nanovaccines were formulated herein with multiple IAV antigens to examine the "plug-and-play" nature of the polyanhydride nanovaccine platform and determine their ability to induce humoral and cellular immunity and broad-based protection similar to IAV-nanovax. The H3N2-based IAV nanovaccine formulations induced systemic and mucosal B cell responses which were associated with antigen-specific antibodies. Additionally, systemic and lung-tissue resident CD4 and CD8 T cell responses were enhanced post-vaccination. These immune responses corresponded with protection against both homologous and heterosubtypic IAV infection. Overall, these results demonstrate the plug-and-play nature of the polyanhydride nanovaccine platform and its ability to generate immunity and protection against IAV utilizing diverse antigenic payloads.

Abstract Image

针对 H3N2 甲型流感病毒的多酸酐纳米疫苗可产生粘膜常驻免疫和全身免疫,促进保护。
由于季节性流行病和周期性大流行,甲型流感病毒(IAV)在全球范围内造成了严重的发病率和死亡率。IAV 抗原的漂移/转变不断产生新的毒株和亚型,帮助 IAV 规避先前建立的免疫。因此,人们对开发一种能诱导针对多种 IAV 的持久免疫力的广泛保护性 IAV 疫苗产生了浓厚的兴趣。此前曾有报道称,一种基于聚酸酐纳米颗粒的疫苗或纳米疫苗(IAV-nanovax)封装了 H1N1 IAV 抗原,可诱导肺 B 细胞和 T 细胞免疫,并产生针对 IAV 的跨株保护。IAV-nanovax 的一个主要特点是它能够轻松地结合多种蛋白质/载荷,从而有可能提高其针对 IAV 和/或其他病原体提供广泛保护的能力。鉴于人类对 H1N1 和 H3N2 IAV 的易感性,本研究用多种 IAV 抗原配制了几种 H3N2 纳米疫苗,以检验聚酸酐纳米疫苗平台的 "即插即用 "特性,并确定其诱导体液和细胞免疫以及提供类似于 IAV-nanovax 的广泛保护的能力。基于 H3N2 的 IAV 纳米疫苗制剂可诱导全身和粘膜 B 细胞反应,这些反应与抗原特异性抗体有关。此外,接种疫苗后,全身和肺组织驻留的 CD4 和 CD8 T 细胞反应也得到了增强。这些免疫反应对同源和异源亚型 IAV 感染都有保护作用。总之,这些结果证明了多酸酐纳米疫苗平台的即插即用特性,以及它利用不同抗原载荷产生免疫力和对 IAV 的保护能力。
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
NPJ Vaccines
NPJ Vaccines Immunology and Microbiology-Immunology
CiteScore
11.90
自引率
4.30%
发文量
146
审稿时长
11 weeks
期刊介绍: Online-only and open access, npj Vaccines is dedicated to highlighting the most important scientific advances in vaccine research and development.
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