Influenza Division, National Center for Immunization and Respiratory Diseases, Centers for Disease Control and Prevention, Atlanta, Georgia, USA.
Battelle Memorial Institute, Atlanta, Georgia, USA.
J Virol. 2018 Dec 10;93(1). doi: 10.1128/JVI.01740-18. Print 2019 Jan 1.
The fifth wave of the H7N9 influenza epidemic in China was distinguished by a sudden increase in human infections, an extended geographic distribution, and the emergence of highly pathogenic avian influenza (HPAI) viruses. Genetically, some H7N9 viruses from the fifth wave have acquired novel amino acid changes at positions involved in mammalian adaptation, antigenicity, and hemagglutinin cleavability. Here, several human low-pathogenic avian influenza (LPAI) and HPAI H7N9 virus isolates from the fifth epidemic wave were assessed for their pathogenicity and transmissibility in mammalian models, as well as their ability to replicate in human airway epithelial cells. We found that an LPAI virus exhibited a similar capacity to replicate and cause disease in two animal species as viruses from previous waves. In contrast, HPAI H7N9 viruses possessed enhanced virulence, causing greater lethargy and mortality, with an extended tropism for brain tissues in both ferret and mouse models. These HPAI viruses also showed signs of adaptation to mammalian hosts by acquiring the ability to fuse at a lower pH threshold than other H7N9 viruses. All of the fifth-wave H7N9 viruses were able to transmit among cohoused ferrets but exhibited a limited capacity to transmit by respiratory droplets, and deep sequencing analysis revealed that the H7N9 viruses sampled after transmission showed a reduced amount of minor variants. Taken together, we conclude that the fifth-wave HPAI H7N9 viruses have gained the ability to cause enhanced disease in mammalian models and with further adaptation may acquire the ability to cause an H7N9 pandemic. The potential pandemic risk posed by avian influenza H7N9 viruses was heightened during the fifth epidemic wave in China due to the sudden increase in the number of human infections and the emergence of antigenically distinct LPAI and HPAI H7N9 viruses. In this study, a group of fifth-wave HPAI and LPAI viruses was evaluated for its ability to infect, cause disease, and transmit in small-animal models. The ability of HPAI H7N9 viruses to cause more severe disease and to replicate in brain tissues in animal models as well as their ability to fuse at a lower pH threshold than LPAI H7N9 viruses suggests that the fifth-wave H7N9 viruses have evolved to acquire novel traits with the potential to pose a higher risk to humans. Although the fifth-wave H7N9 viruses have not yet gained the ability to transmit efficiently by air, continuous surveillance and risk assessment remain essential parts of our pandemic preparedness efforts.
中国第五波 H7N9 流感疫情的特点是人类感染突然增加,地域分布广泛,以及高致病性禽流感(HPAI)病毒的出现。从遗传学角度来看,第五波的一些 H7N9 病毒在参与哺乳动物适应、抗原性和血凝素裂解的位置获得了新的氨基酸变化。在这里,评估了来自第五波疫情的几种人类低致病性禽流感(LPAI)和 HPAI H7N9 病毒分离株在哺乳动物模型中的致病性和传染性,以及它们在人类气道上皮细胞中的复制能力。我们发现,一种 LPAI 病毒在两种动物物种中的复制和致病能力与前几波的病毒相似。相比之下,HPAI H7N9 病毒具有更强的毒力,导致更大的昏睡和死亡率,并在雪貂和小鼠模型中对脑组织的嗜性延长。这些 HPAI 病毒还通过获得在比其他 H7N9 病毒更低的 pH 值下融合的能力,表现出对哺乳动物宿主的适应迹象。所有第五波 H7N9 病毒都能够在共同饲养的雪貂之间传播,但通过呼吸道飞沫传播的能力有限,深度测序分析表明,传播后的 H7N9 病毒样本显示出较少的次要变异。总的来说,我们得出结论,第五波 HPAI H7N9 病毒已经获得了在哺乳动物模型中引起更严重疾病的能力,并且随着进一步适应,可能会获得引起 H7N9 大流行的能力。在中国第五次疫情期间,由于人类感染数量的突然增加以及出现抗原性不同的 LPAI 和 HPAI H7N9 病毒,禽流感 H7N9 病毒引起的潜在大流行风险增加。在这项研究中,评估了一组第五波 HPAI 和 LPAI 病毒在小动物模型中感染、引起疾病和传播的能力。HPAI H7N9 病毒在动物模型中引起更严重疾病和在脑组织中复制的能力,以及它们在比 LPAI H7N9 病毒更低的 pH 值下融合的能力表明,第五波 H7N9 病毒已经进化出获得具有更高风险的新型特征。尽管第五波 H7N9 病毒尚未获得通过空气有效传播的能力,但持续监测和风险评估仍然是我们大流行准备工作的重要组成部分。
