Department of Medical Microbiology, Amsterdam UMC, Amsterdam, the Netherlands.
Department of Viroscience, Erasmus MC, Rotterdam, the Netherlands.
J Virol. 2020 May 18;94(11). doi: 10.1128/JVI.00375-20.
Highly pathogenic avian influenza A(H5N8) viruses first emerged in China in 2010 and in 2014 spread throughout Asia and to Europe and the United States via migrating birds. Influenza A(H5N8) viruses were first detected in the Netherlands in 2014 and caused five outbreaks in poultry farms but were infrequently detected in wild birds. In 2016, influenza A(H5N8) viruses were reintroduced into the Netherlands, resulting in eight poultry farm outbreaks. This outbreak resulted in numerous dead wild birds with severe pathology. Phylogenetic analysis showed that the polymerase genes of these viruses had undergone extensive reassortment between outbreaks. Here, we investigated the differences in virulence between the 2014-15 and the 2016-17 outbreaks by characterizing the polymerase complex of influenza A(H5N8) viruses from both outbreaks. We found that viruses from the 2014-15 outbreak had significantly higher polymerase complex activity in both human and avian cell lines than did those from the 2016-17 outbreak. No apparent differences in the balance between transcription and replication of the viral genome were observed. Interestingly, the 2014-15 polymerase complexes induced significantly higher levels of interferon beta (IFN-β) than the polymerase complexes of the 2016-17 outbreak viruses, mediated via retinoic acid-inducible gene I (RIG-I). Inoculation of primary duck cells with recombinant influenza A(H5N8) viruses, including viruses with reassorted polymerase complexes, showed that the polymerase complexes from the 2014-15 outbreak induced higher levels of IFN-β despite relatively minor differences in replication capacity. Together, these data suggest that despite the lower levels of polymerase activity, the higher 2016-17 influenza A(H5N8) virus virulence may be attributed to the lower level of activation of the innate immune system. Compared to the 2014-15 outbreak, the 2016-17 outbreak of influenza A(H5N8) viruses in the Netherlands and Europe was more virulent; the number of dead or diseased wild birds found and the severity of pathological changes were higher during the 2016-17 outbreak. The polymerase complex plays an important role in influenza virus virulence, and the gene segments of influenza A(H5N8) viruses reassorted extensively between the outbreaks. In this study, the 2014-15 polymerase complexes were found to be more active, which is counterintuitive with the observed higher virulence of the 2016-17 outbreak viruses. Interestingly, the 2014-15 polymerase complexes also induced higher levels of IFN-β. These findings suggest that the higher virulence of influenza A(H5N8) viruses from the 2016-17 outbreak may be related to the lower induction of IFN-β. An attenuated interferon response could lead to increased dissemination, pathology, and mortality, as observed in (wild) birds infected during the 2016-2017 outbreak.
高致病性禽流感 A(H5N8)病毒于 2010 年在中国首次出现,并于 2014 年通过候鸟传播到亚洲、欧洲和美国。2014 年,荷兰首次检测到甲型流感 A(H5N8)病毒,并在 2016 年导致 5 起家禽养殖场暴发疫情,但在野生鸟类中很少检测到。2016 年,甲型流感 A(H5N8)病毒再次传入荷兰,导致 8 起家禽养殖场暴发疫情。此次疫情导致大量野生鸟类死亡,并伴有严重的病理变化。系统进化分析表明,这些病毒的聚合酶基因在暴发之间发生了广泛的重配。在此,我们通过研究 2014-15 年和 2016-17 年暴发期间的聚合酶复合物,来研究病毒毒力的差异。我们发现,与 2016-17 年暴发的病毒相比,2014-15 年暴发的病毒在人源和禽源细胞系中的聚合酶复合物活性明显更高。没有观察到病毒基因组转录和复制之间的平衡有明显差异。有趣的是,2014-15 年的聚合酶复合物诱导的干扰素-β(IFN-β)水平明显高于 2016-17 年暴发病毒的聚合酶复合物,这是通过视黄酸诱导基因 I (RIG-I)介导的。用包括重配聚合酶复合物在内的重组甲型流感 A(H5N8)病毒接种原代鸭细胞表明,尽管复制能力差异较小,但 2014-15 年暴发的聚合酶复合物诱导的 IFN-β水平更高。这些数据表明,尽管聚合酶活性较低,但 2016-17 年高致病性禽流感 A(H5N8)病毒的毒力可能归因于固有免疫系统的激活水平较低。与 2014-15 年暴发相比,2016-17 年荷兰和欧洲的高致病性禽流感 A(H5N8)病毒暴发更为严重;在 2016-17 年暴发期间,发现的死鸟或病鸟数量以及病理变化的严重程度更高。聚合酶复合物在流感病毒毒力中发挥着重要作用,并且流感 A(H5N8)病毒的基因片段在暴发之间发生了广泛的重配。在这项研究中,发现 2014-15 年的聚合酶复合物更活跃,这与观察到的 2016-17 年暴发病毒的更高毒力相反。有趣的是,2014-15 年的聚合酶复合物也诱导了更高水平的 IFN-β。这些发现表明,2016-17 年暴发的高致病性禽流感 A(H5N8)病毒的高毒力可能与 IFN-β的诱导降低有关。较弱的干扰素反应可能导致病毒的传播、病理变化和死亡率增加,这在 2016-2017 年期间感染的(野生)鸟类中有所观察到。
