控制阿伦病毒性出血热的疫苗平台。

Ricardo Carrion, Peter Bredenbeek, Xiaohong Jiang, Irina Tretyakova, Peter Pushko, Igor S Lukashevich
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引用次数: 0

摘要

阿雷病毒是啮齿动物传播的新人类病原体。由这些病毒引起的疾病,如西非的拉沙热(LF)和南美的出血热(HF),是流行地区严重的公共卫生问题。我们采用复制能力强和复制缺陷的策略设计候选疫苗,可能针对不同的 "高危 "人群。我们的主要 LF 候选疫苗--重变种活疫苗 ML29,在包括非人灵长类动物在内的所有测试动物模型中均安全有效。在这项研究中,我们发现,在拉沙病毒(LASV)挑战两天后用 ML29 治疗致命感染动物,80% 的受治疗动物都能得到保护。在地方病流行地区,大多数目标人群都很贫穷,许多人远离医疗机构,因此使用 ML29 进行单剂量疫苗接种将是理想的解决方案。一旦疫情爆发,最好使用速效疫苗或接触后预防。2(nd) 疫苗技术基于黄热病(YF)17D 疫苗。我们设计了表达 LASV 糖蛋白(GP)的基于 YF17D 的重组病毒,并证明了这些重组病毒的保护效力。在目前的研究中,我们开发了一种在 YF17D C 基因内克隆 LASV 核头壳的新技术。要设计出成功的 LASV/YFV 双价疫苗来控制西非重叠流行区的 LF 和 YF,必须解决外来插入物的低免疫原性和稳定性问题。3(rd)平台基于新一代α病毒复制子病毒样颗粒载体(VLPV)。利用这项技术,我们设计出了表达 LASV GP 的 VLPV(免疫原性更强)和表达胡宁病毒(JUNV)和马丘波病毒(MACV)交叉反应 GP 的双价 VLPV,这两种病毒分别是阿根廷和玻利维亚高致病性流感的病原体。VLPV免疫接种所需的 "原始强化 "方案可能对医疗服务提供者、军人、实验室人员和流行地区的游客来说比较实用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Vaccine Platforms to Control Arenaviral Hemorrhagic Fevers.

Arenaviruses are rodent-borne emerging human pathogens. Diseases caused by these viruses, e.g., Lassa fever (LF) in West Africa and South American hemorrhagic fevers (HFs), are serious public health problems in endemic areas. We have employed replication-competent and replication-deficient strategies to design vaccine candidates potentially targeting different groups "at risk". Our leader LF vaccine candidate, the live reassortant vaccine ML29, is safe and efficacious in all tested animal models including non-human primates. In this study we showed that treatment of fatally infected animals with ML29 two days after Lassa virus (LASV) challenge protected 80% of the treated animals. In endemic areas, where most of the target population is poor and many live far from health care facilities, a single-dose vaccination with ML29 would be ideal solution. Once there is an outbreak, a fast-acting vaccine or post-exposure prophylaxis would be best. The 2(nd) vaccine technology is based on Yellow Fever (YF) 17D vaccine. We designed YF17D-based recombinant viruses expressing LASV glycoproteins (GP) and showed protective efficacy of these recombinants. In the current study we developed a novel technology to clone LASV nucleocapsid within YF17D C gene. Low immunogenicity and stability of foreign inserts must be addressed to design successful LASV/YFV bivalent vaccines to control LF and YF in overlapping endemic areas of West Africa. The 3(rd) platform is based on the new generation of alphavirus replicon virus-like-particle vectors (VLPV). Using this technology we designed VLPV expressing LASV GP with enhanced immunogenicity and bivalent VLPV expressing cross-reactive GP of Junin virus (JUNV) and Machupo virus (MACV), causative agents of Argentinian and Bolivian HF, respectively. A prime-boost regimen required for VLPV immunization might be practical for medical providers, military, lab personnel, and visitors in endemic areas.

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