甲型流感病毒PB2基因片段表达的一种新型病毒蛋白的鉴定
Identification of a Novel Viral Protein Expressed from the PB2 Segment of Influenza A Virus.
作者信息
Yamayoshi Seiya, Watanabe Mariko, Goto Hideo, Kawaoka Yoshihiro
机构信息
Division of Virology, Department of Microbiology and Immunology, Institute of Medical Science, University of Tokyo, Tokyo, Japan
Division of Virology, Department of Microbiology and Immunology, Institute of Medical Science, University of Tokyo, Tokyo, Japan.
出版信息
J Virol. 2015 Oct 21;90(1):444-56. doi: 10.1128/JVI.02175-15. Print 2016 Jan 1.
UNLABELLED
Over the past 2 decades, several novel influenza virus proteins have been identified that modulate viral infections in vitro and/or in vivo. The PB2 segment, which is one of the longest influenza A virus segments, is known to encode only one viral protein, PB2. In the present study, we used reverse transcription-PCR (RT-PCR) targeting viral mRNAs transcribed from the PB2 segment to look for novel viral proteins encoded by spliced mRNAs. We identified a new viral protein, PB2-S1, encoded by a novel spliced mRNA in which the region corresponding to nucleotides 1513 to 1894 of the PB2 mRNA is deleted. PB2-S1 was detected in virus-infected cells and in cells transfected with a protein expression plasmid encoding PB2. PB2-S1 localized to mitochondria, inhibited the RIG-I-dependent interferon signaling pathway, and interfered with viral polymerase activity (dependent on its PB1-binding capability). The nucleotide sequences around the splicing donor and acceptor sites for PB2-S1 were highly conserved among pre-2009 human H1N1 viruses but not among human H1N1pdm and H3N2 viruses. PB2-S1-deficient viruses, however, showed growth kinetics in MDCK cells and virulence in mice similar to those of wild-type virus. The biological significance of PB2-S1 to the replication and pathogenicity of seasonal H1N1 influenza A viruses warrants further investigation.
IMPORTANCE
Transcriptome analysis of cells infected with influenza A virus has improved our understanding of the host response to viral infection, because such analysis yields considerable information about both in vitro and in vivo viral infections. However, little attention has been paid to transcriptomes derived from the viral genome. Here we focused on the splicing of mRNA expressed from the PB2 segment and identified a spliced viral mRNA encoding a novel viral protein. This result suggests that other, as yet unidentified viral proteins encoded by spliced mRNAs could be expressed in virus-infected cells. A viral transcriptome including the viral spliceosome should be evaluated to gain new insights into influenza virus infection.
未标记
在过去20年中,已鉴定出几种新型流感病毒蛋白,它们在体外和/或体内调节病毒感染。PB2片段是甲型流感病毒最长的片段之一,已知仅编码一种病毒蛋白PB2。在本研究中,我们使用逆转录PCR(RT-PCR)靶向从PB2片段转录的病毒mRNA,以寻找由剪接mRNA编码的新型病毒蛋白。我们鉴定出一种新的病毒蛋白PB2-S1,它由一种新型剪接mRNA编码,其中PB2 mRNA中对应于核苷酸1513至1894的区域被删除。在病毒感染的细胞和用编码PB2的蛋白质表达质粒转染的细胞中检测到PB2-S1。PB2-S1定位于线粒体,抑制RIG-I依赖性干扰素信号通路,并干扰病毒聚合酶活性(取决于其与PB1的结合能力)。PB2-S1剪接供体和受体位点周围的核苷酸序列在2009年前的人类H1N1病毒中高度保守,但在人类甲型H1N1pdm和H3N2病毒中则不然。然而,缺乏PB2-S1的病毒在MDCK细胞中的生长动力学和在小鼠中的毒力与野生型病毒相似。PB2-S1对季节性甲型H1N1流感病毒复制和致病性的生物学意义值得进一步研究。
重要性
对甲型流感病毒感染细胞的转录组分析增进了我们对宿主对病毒感染反应的理解,因为这种分析产生了关于体外和体内病毒感染的大量信息。然而,对源自病毒基因组的转录组关注甚少。在这里,我们专注于PB2片段表达的mRNA的剪接,并鉴定出一种编码新型病毒蛋白的剪接病毒mRNA。这一结果表明,由剪接mRNA编码的其他尚未鉴定的病毒蛋白可能在病毒感染的细胞中表达。应评估包括病毒剪接体在内的病毒转录组,以获得对流感病毒感染的新见解。
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