A replication-deficient gammaherpesvirus vaccine protects mice from lytic disease and reduces latency establishment.

IF 6.9 1区 医学 Q1 IMMUNOLOGY
Wesley A Bland, Dipanwita Mitra, Shana Owens, Kyle McEvoy, Chad H Hogan, Luciarita Boccuzzi, Varvara Kirillov, Thomas J Meyer, Camille Khairallah, Brian S Sheridan, J Craig Forrest, Laurie T Krug
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Abstract

Gammaherpesviruses are oncogenic viruses that establish lifelong infections and are significant causes of morbidity and mortality. Vaccine strategies to limit gammaherpesvirus infection and disease are in development, but there are no FDA-approved vaccines for Epstein-Barr or Kaposi sarcoma herpesvirus. As a new approach to gammaherpesvirus vaccination, we developed and tested a replication-deficient virus (RDV) platform, using murine gammaherpesvirus 68 (MHV68), a well-established mouse model for gammaherpesvirus pathogenesis studies and preclinical therapeutic evaluations. We employed codon-shuffling-based complementation to generate revertant-free RDV lacking expression of the essential replication and transactivator protein encoded by ORF50 to arrest viral gene expression early after de novo infection. Inoculation with RDV-50.stop exposes the host to intact virion particles and leads to limited lytic gene expression in infected cells yet does not produce additional infectious particles. Prime-boost vaccination of mice with RDV-50.stop elicited virus-specific neutralizing antibody and effector T cell responses in the lung and spleen. In contrast to vaccination with heat-inactivated WT MHV68, vaccination with RDV-50.stop resulted in a near complete abolishment of virus replication in the lung 7 days post-challenge and reduction of latency establishment in the spleen 16 days post-challenge with WT MHV68. Ifnar1-/- mice, which lack the type I interferon receptor, exhibit severe disease and high mortality upon infection with WT MHV68. RDV-50.stop vaccination of Ifnar1-/- mice prevented wasting and mortality upon challenge with WT MHV68. These results demonstrate that prime-boost vaccination with a gammaherpesvirus that is unable to undergo lytic replication offers protection against acute replication, impairs the establishment of latency, and prevents severe disease upon the WT virus challenge. Our study also reveals that the ability of a gammaherpesvirus to persist in vivo despite potent pre-existing immunity is an obstacle to obtaining sterilizing immunity.

Abstract Image

复制缺陷型γ疱疹病毒疫苗可保护小鼠免于感染裂解病并减少潜伏期的建立。
γ疱疹病毒是致癌病毒,可造成终生感染,是发病和死亡的重要原因。限制γ疱疹病毒感染和疾病的疫苗策略正在开发中,但目前还没有针对 Epstein-Barr 或 Kaposi 肉瘤疱疹病毒的疫苗获得美国食品及药物管理局的批准。作为γ疱疹病毒疫苗接种的一种新方法,我们开发并测试了一种复制缺陷病毒(RDV)平台,该平台使用了小鼠γ疱疹病毒 68 (MHV68),这是一种用于γ疱疹病毒发病机制研究和临床前治疗评估的成熟小鼠模型。我们采用了基于密码子洗码的互补技术,生成了无逆转录病毒的 RDV,这种 RDV 缺乏 ORF50 编码的重要复制和转录激活蛋白的表达,从而在新生感染后早期抑制病毒基因的表达。接种 RDV-50.stop 会使宿主接触到完整的病毒颗粒,并导致感染细胞中有限的溶解基因表达,但不会产生额外的传染性颗粒。小鼠接种 RDV-50.stop 后,肺部和脾脏会产生病毒特异性中和抗体和效应 T 细胞反应。与接种热灭活的 WT MHV68 不同的是,接种 RDV-50.stop 会导致小鼠在接种 WT MHV68 后 7 天内肺部的病毒复制几乎完全消失,并在接种 WT MHV68 后 16 天内降低脾脏的潜伏期。缺乏 I 型干扰素受体的 Ifnar1-/- 小鼠在感染 WT MHV68 后会表现出严重的疾病和很高的死亡率。给 Ifnar1-/- 小鼠接种 RDV-50.stop 疫苗可防止小鼠在感染 WT MHV68 后消瘦和死亡。这些结果表明,接种一种无法进行溶解复制的γ疱疹病毒的原代强化疫苗可防止急性复制,影响潜伏期的建立,并防止在受到 WT 病毒挑战时发生严重疾病。我们的研究还揭示了,γ疱疹病毒在已有强大免疫力的情况下仍能在体内持续存在,这是获得绝育免疫力的一个障碍。
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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