一剂减毒活寨卡病毒疫苗，通过控制感染轮次，预防垂直传播。

A Single-Dose Live-Attenuated Zika Virus Vaccine with Controlled Infection Rounds that Protects against Vertical Transmission.

机构信息

Department of Biochemistry & Molecular Biology, University of Texas Medical Branch, Galveston, TX, USA.

KU Leuven, Rega Institute for Medical Research, Department of Microbiology and Immunology, Laboratory of Virology and Chemoth, University of Leuven, Leuven, Belgium.

出版信息

Cell Host Microbe. 2018 Oct 10;24(4):487-499.e5. doi: 10.1016/j.chom.2018.09.008.

DOI:10.1016/j.chom.2018.09.008

PMID:30308155

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6188708/

Abstract

Zika virus (ZIKV) infection of the mother during pregnancy causes devastating Zika congenital syndrome in the offspring. A ZIKV vaccine with optimal safety and immunogenicity for use in pregnant women is critically needed. Toward this goal, we have developed a single-dose live-attenuated vaccine candidate that infects cells with controlled, limited infection rounds. The vaccine contains a 9-amino-acid deletion in the viral capsid protein and replicates to titers of > 10 focus-forming units (FFU)/mL in cells expressing the full-length capsid protein. Immunization of A129 mice with one dose (10 FFU) did not produce viremia, but elicited protective immunity that completely prevented viremia, morbidity, and mortality after challenge with an epidemic ZIKV strain (10 PFU). A single-dose vaccination also fully prevented infection of pregnant mice and maternal-to-fetal transmission. Intracranial injection of the vaccine (10 FFU) to 1-day-old mice did not cause any disease or death, underscoring the safety of this vaccine candidate.

摘要

寨卡病毒（ZIKV）在孕妇怀孕期间感染会导致后代出现严重的寨卡先天性综合征。迫切需要一种具有最佳安全性和免疫原性的寨卡病毒疫苗，可用于孕妇。为此，我们开发了一种单剂量减毒活疫苗候选物，该疫苗能够以受控的、有限的感染轮次感染细胞。该疫苗在表达全长衣壳蛋白的细胞中复制到超过 10 焦点形成单位（FFU）/毫升的滴度，并且在病毒衣壳蛋白中含有 9 个氨基酸缺失。用一剂（10 FFU）对 A129 小鼠进行免疫接种不会产生病毒血症，但会引发保护性免疫，完全防止病毒血症、发病率和死亡率，在受到流行的寨卡病毒株（10 PFU）的挑战后。单次接种还完全防止了怀孕小鼠的感染和母婴传播。向 1 日龄小鼠颅内注射疫苗（10 FFU）不会引起任何疾病或死亡，这突显了该疫苗候选物的安全性。

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Zika Virus Vaccine: Progress and Challenges.寨卡病毒疫苗：进展与挑战。

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Luteolin escape mutants of dengue virus map to prM and NS2B and reveal viral plasticity during maturation.登革热病毒的木犀草素逃逸突变体定位于 prM 和 NS2B，揭示了成熟过程中的病毒可塑性。

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