H9N2 流感病毒中 PB1-K577E 突变增加聚合酶活性和小鼠致病性。

A PB1-K577E Mutation in H9N2 Influenza Virus Increases Polymerase Activity and Pathogenicity in Mice.

机构信息

Department of Veterinary Microbiology, Graduate School of Agricultural and Life Sciences, The University of Tokyo, 1-1-1 Yayoi, Bunkyo-ku, Tokyo 113-8657, Japan.

出版信息

Viruses. 2018 Nov 19;10(11):653. doi: 10.3390/v10110653.

DOI:10.3390/v10110653

PMID:30463209

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6266086/

Abstract

H9N2 avian influenza viruses are present in poultry worldwide. These viruses are considered to have pandemic potential, because recent isolates can recognize human-type receptor and several sporadic human infections have been reported. In this study, we aimed to identify mutations related to mammalian adaptation of H9N2 influenza virus. We found that mouse-adapted viruses had several mutations in hemagglutinin (HA), PB2, PA, and PB1. Among the detected mutations, PB1-K577E was a novel mutation that had not been previously reported to involve mammalian adaptation. A recombinant H9N2 virus bearing only the PB1-K577E mutation showed enhanced pathogenicity in mice, with increased virus titers in nasal turbinates compared to that in mice infected with the wild-type virus. In addition, the PB1-K577E mutation increased virus polymerase activity in human cell culture at a lower temperature. These data suggest that the PB1-K577E mutation is a novel pathogenicity determinant of H9N2 virus in mice and could be a signature for mammalian adaptation.

摘要

H9N2 禽流感病毒在全球范围内存在于家禽中。这些病毒被认为具有大流行的潜力，因为最近的分离株可以识别人类型受体，并且已经报道了几例散发性人类感染。在这项研究中，我们旨在确定与 H9N2 流感病毒适应哺乳动物相关的突变。我们发现，适应小鼠的病毒在血凝素（HA）、PB2、PA 和 PB1 中具有几个突变。在检测到的突变中，PB1-K577E 是一个新的突变，以前没有报道过与哺乳动物适应有关。仅携带 PB1-K577E 突变的重组 H9N2 病毒在小鼠中表现出增强的致病性，与感染野生型病毒的小鼠相比，鼻甲骨中的病毒滴度增加。此外，PB1-K577E 突变增加了人类细胞培养物中较低温度下的病毒聚合酶活性。这些数据表明，PB1-K577E 突变是 H9N2 病毒在小鼠中致病性的一个新决定因素，并且可能是哺乳动物适应的特征。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/37d7/6266086/31d16820a7f9/viruses-10-00653-g001a.jpg

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H9N2 流感病毒中 PB1-K577E 突变增加聚合酶活性和小鼠致病性。

A PB1-K577E Mutation in H9N2 Influenza Virus Increases Polymerase Activity and Pathogenicity in Mice.

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