pr-independent biogenesis of infectious mature Zika virus particles

bioRxiv - Microbiology Pub Date : 2024-09-12 DOI:10.1101/2024.09.12.612520

Kimberly A Dowd, Michelle Schroeder, Egan Sanchez, Beniah Brumbaugh, Bryant M Foreman, Katherine E Burgomaster, Wei Shi, Lingshu Wang, Natalie Caputo, David Gordon, Cindi L Schwartz, Bryan T Hansen, Maya Aleshnick, Wing-Pui Kong, Kaitlyn M Morabito, Heather D Hickman, Barney S Graham, Elizabeth R Fischer, Theodore C Pierson

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Abstract

Flavivirus assembly at the endoplasmic reticulum is driven by the structural proteins envelope (E) and premembrane (prM). Here, contrary to the established paradigm for flavivirus assembly, we demonstrate that the biogenesis of flavivirus particles does not require an intact prM nor proteolytic activation. The expression of E preceded by a truncated version of prM (M-E) was sufficient for the formation of non-infectious Zika virus subviral particles and pseudo-infectious reporter virions. Subviral particles encoded by a ZIKV M-E DNA vaccine elicited a neutralizing antibody response that was insensitive to the virion maturation state, a feature of flavivirus humoral immunity shown to correlate with protection. M-E vaccines that uniformly present structural features shared with mature virions offer a higher quality and broadly applicable approach to flavivirus vaccination.

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具有传染性的成熟寨卡病毒颗粒的生物生成与朊病毒无关

黄病毒在内质网的组装是由包膜（E）和膜前（prM）结构蛋白驱动的。在这里，与黄病毒组装的既定模式相反，我们证明了黄病毒颗粒的生物生成不需要完整的prM，也不需要蛋白水解激活。在表达 E 之前先表达截短版 prM（M-E）足以形成非感染性寨卡病毒亚病毒粒子和假感染性报告病毒。由 ZIKV M-E DNA 疫苗编码的亚病毒颗粒可引起对病毒成熟状态不敏感的中和抗体反应，而黄病毒体液免疫的这一特征已被证明与保护相关。与成熟病毒具有相同结构特征的M-E疫苗为黄病毒疫苗接种提供了一种质量更高、适用范围更广的方法。

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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bioRxiv - Microbiology

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