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用疟原虫 B 细胞表位替换腺病毒载体 HVR1 可提高免疫原性,并规避小鼠对腺病毒的预先存在的免疫。

Replacing adenoviral vector HVR1 with a malaria B cell epitope improves immunogenicity and circumvents preexisting immunity to adenovirus in mice.

机构信息

HIV and Malaria Vaccine Program, Aaron Diamond AIDS Research Center, New York, New York 10016, USA.

出版信息

J Clin Invest. 2010 Oct;120(10):3688-701. doi: 10.1172/JCI39812. Epub 2010 Sep 1.

DOI:10.1172/JCI39812
PMID:20811151
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2947213/
Abstract

Although adenovirus (Ad) has been regarded as an excellent vaccine vector, there are 2 major drawbacks to using this platform: (a) Ad-based vaccines induce a relatively weak humoral response against encoded transgenes, and (b) preexisting immunity to Ad is highly prevalent among the general population. To overcome these obstacles, we constructed an Ad-based malaria vaccine by inserting a B cell epitope derived from a Plasmodium yoelii circumsporozoite (CS) protein (referred to as the PyCS-B epitope) into the capsid proteins of WT/CS-GFP, a recombinant Ad expressing P. yoelii CS protein and GFP as its transgene. Multiple vaccinations with the capsid-modified Ad induced a substantially increased level of protection against subsequent malaria challenge in mice when compared with that of unmodified WT/CS-GFP. Increased protection correlated with augmented antibody responses against the PyCS-B epitope expressed in the capsid. Furthermore, replacement of hypervariable region 1 (HVR1) of the Ad capsid proteins with the PyCS-B epitope circumvented neutralization of the modified Ad by preexisting Ad-specific antibody, both in vivo and in vitro. Importantly, the immunogenicity of the Ad-containing PyCS-B epitope in the HVR1 and a P. yoelii CS transgene was maintained. Overall, this study demonstrates that the HVR1-modifed Ad vastly improves upon Ad as a promising malaria vaccine platform candidate.

摘要

虽然腺病毒(Ad)被认为是一种优秀的疫苗载体,但在使用该平台时有两个主要的缺点:(a)基于 Ad 的疫苗对编码的转基因产生相对较弱的体液反应,(b)普通人群中普遍存在对 Ad 的预先存在的免疫。为了克服这些障碍,我们通过将来自 Plasmodium yoelii 环子孢子(CS)蛋白的 B 细胞表位插入到 WT/CS-GFP 的衣壳蛋白中,构建了一种基于 Ad 的疟疾疫苗,WT/CS-GFP 是一种表达 P. yoelii CS 蛋白和 GFP 的重组 Ad。与未修饰的 WT/CS-GFP 相比,用修饰的 Ad 进行多次疫苗接种可显著提高对随后疟疾攻击的保护水平。增加的保护与针对衣壳中表达的 PyCS-B 表位的抗体反应增强相关。此外,用 PyCS-B 表位替换 Ad 衣壳蛋白的高变区 1(HVR1),可在体内和体外规避预先存在的针对 Ad 的抗体对修饰的 Ad 的中和作用。重要的是,HVR1 中含有 Ad 的 PyCS-B 表位和 P. yoelii CS 转基因的免疫原性得以维持。总的来说,这项研究表明,HVR1 修饰的 Ad 大大提高了 Ad 作为一种有前途的疟疾疫苗平台候选物的地位。

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本文引用的文献

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Adenovirus type 5 with modified hexons induces robust transgene-specific immune responses in mice with pre-existing immunity against adenovirus type 5.具有修饰六邻体的5型腺病毒在对5型腺病毒具有预先免疫的小鼠中诱导强烈的转基因特异性免疫反应。
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