重组黑猩猩腺病毒单独诱导和加强免疫方案诱导的 T 细胞可降低嵌合 EcoHIV/NDK 挑战病毒载量。

T cells induced by recombinant chimpanzee adenovirus alone and in prime-boost regimens decrease chimeric EcoHIV/NDK challenge virus load.

机构信息

MRC Human Immunology Unit, Weatherall Institute of Molecular Medicine, University of Oxford, Oxford, UK.

出版信息

Eur J Immunol. 2012 Dec;42(12):3243-55. doi: 10.1002/eji.201242624. Epub 2012 Oct 16.

DOI:10.1002/eji.201242624

PMID:22930183

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3980942/

Abstract

The popularity of nonreplicating adenoviruses of chimpanzee origin (ChAdVs) as vectors for subunit vaccines is on the rise. This is mainly for their excellent safety and impressive immunogenicity observed in human studies to date. Here, we recloned the chimpanzee adenovirus sero type 68 (ChAdV-68), also designated SAdV-25 and AdC68, genome and demonstrated its straightforward genetic manipulation facilitated by the use of bacterial artificial chromosome recombineering. To generate the ChAdV68.GagB vaccine, the HIV-1 consensus clade B Gag-derived Tg was inserted into the E1 region. In part confirming previous observations, the ChAdV68.GagB vaccine alone and in heterologous prime-boost regimens with plasmid DNA- and modified vaccinia virus Ankara (MVA)-vectored vaccines induced robust polyfunctional HIV-1-specific CD8(+) and CD4(+) T-cell responses with a gut-homing phenotype. Importantly, we showed that when a single epitope is expressed as an immunodominant CD8(+) T-cell determinant, responses elicited by ChAdV68.GagB alone and in combination lowered surrogate challenge EcoHIV/NDK (where EcoHIV is chimeric ecotropic HIV) virus load in mice both at the peak T-cell frequencies 2 weeks after vaccination and 16 weeks later indicating development of protective effector memory. These results parallel the immunogenicity of similar vaccine regimens in macaques and an ongoing phase I/IIa trial in humans, and support further development of vaccines vectored by ChAdVs.

摘要

源于 chimpanzee 的非复制型腺病毒（ChAdVs）作为亚单位疫苗载体的应用日益普及。这主要归因于迄今为止在人体研究中观察到它们出色的安全性和令人印象深刻的免疫原性。在此，我们对 chimpanzee 腺病毒血清型 68（ChAdV-68）进行了重新克隆，也被称为 SAdV-25 和 AdC68，基因组，并展示了其在使用细菌人工染色体重组酶的情况下可以轻松进行基因操作。为了生成 ChAdV68.GagB 疫苗，HIV-1 共识 clade B Gag 衍生的 Tg 被插入到 E1 区。部分证实了先前的观察结果，ChAdV68.GagB 疫苗单独以及与质粒 DNA 和改良安卡拉痘苗病毒（MVA）载体疫苗异源初免-加强免疫方案一起诱导了强大的多功能 HIV-1 特异性 CD8(+)和 CD4(+) T 细胞反应，具有肠道归巢表型。重要的是，我们表明，当单一表位作为免疫优势 CD8(+) T 细胞决定簇表达时，ChAdV68.GagB 单独以及联合使用引起的反应会降低小鼠中的替代挑战 EcoHIV/NDK（其中 EcoHIV 是嵌合性 ecotropic HIV）病毒载量，在接种后 2 周 T 细胞频率峰值时以及 16 周后均表明保护性效应记忆的发展。这些结果与猕猴中类似疫苗方案的免疫原性以及正在进行的 I/IIa 期人类临床试验相平行，并支持进一步开发 ChAdVs 载体疫苗。

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