甲型流感病毒对一种广泛中和的茎部结合抗体的两种逃逸机制。

Two Escape Mechanisms of Influenza A Virus to a Broadly Neutralizing Stalk-Binding Antibody.

作者信息

Chai Ning, Swem Lee R, Reichelt Mike, Chen-Harris Haiyin, Luis Elizabeth, Park Summer, Fouts Ashley, Lupardus Patrick, Wu Thomas D, Li Olga, McBride Jacqueline, Lawrence Michael, Xu Min, Tan Man-Wah

机构信息

Infectious Diseases Department, Genentech, South San Francisco, California, United States of America.

Pathology Department, Genentech, South San Francisco, California, United States of America.

出版信息

PLoS Pathog. 2016 Jun 28;12(6):e1005702. doi: 10.1371/journal.ppat.1005702. eCollection 2016 Jun.

DOI:10.1371/journal.ppat.1005702

PMID:27351973

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4924800/

Abstract

Broadly neutralizing antibodies targeting the stalk region of influenza A virus (IAV) hemagglutinin (HA) are effective in blocking virus infection both in vitro and in vivo. The highly conserved epitopes recognized by these antibodies are critical for the membrane fusion function of HA and therefore less likely to be permissive for virus mutational escape. Here we report three resistant viruses of the A/Perth/16/2009 strain that were selected in the presence of a broadly neutralizing stalk-binding antibody. The three resistant viruses harbor three different mutations in the HA stalk: (1) Gln387Lys; (2) Asp391Tyr; (3) Asp391Gly. The Gln387Lys mutation completely abolishes binding of the antibody to the HA stalk epitope. The other two mutations, Asp391Tyr and Asp391Gly, do not affect antibody binding at neutral pH and only slightly reduce binding at low pH. Interestingly, they enhance the fusion ability of the HA, representing a novel mechanism that allows productive membrane fusion even in the presence of antibody and hence virus escape from antibody neutralization. Therefore, these mutations illustrate two different resistance mechanisms used by IAV to escape broadly neutralizing stalk-binding antibodies. Compared to the wild type virus, the resistant viruses release fewer progeny viral particles during replication and are more sensitive to Tamiflu, suggesting reduced viral fitness.

摘要

靶向甲型流感病毒（IAV）血凝素（HA）茎区的广谱中和抗体在体外和体内均能有效阻断病毒感染。这些抗体识别的高度保守表位对于HA的膜融合功能至关重要，因此病毒通过突变逃逸的可能性较小。在此，我们报告了在一种广谱中和茎结合抗体存在的情况下筛选出的三株A/珀斯/16/2009毒株抗性病毒。这三株抗性病毒的HA茎区存在三种不同的突变：（1）Gln387Lys；（2）Asp391Tyr；（3）Asp391Gly。Gln387Lys突变完全消除了抗体与HA茎表位的结合。另外两个突变，Asp391Tyr和Asp391Gly，在中性pH下不影响抗体结合，仅在低pH下略微降低结合。有趣的是，它们增强了HA的融合能力，代表了一种即使在有抗体存在的情况下也能实现有效膜融合从而使病毒逃逸抗体中和作用的新机制。因此，这些突变阐明了IAV用于逃逸广谱中和茎结合抗体的两种不同抗性机制。与野生型病毒相比，抗性病毒在复制过程中释放的子代病毒颗粒较少，并且对达菲更敏感，表明病毒适应性降低。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e809/4924800/e650ba3f8cff/ppat.1005702.g001.jpg

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甲型流感病毒对一种广泛中和的茎部结合抗体的两种逃逸机制。

Two Escape Mechanisms of Influenza A Virus to a Broadly Neutralizing Stalk-Binding Antibody.

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