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Sporadic human infections of avian influenza virus (AIV) raise significant public health concerns. A critical factor limiting the transmission of AIVs is the shift in receptor-binding preference from Siaα2,3 to Siaα2,6. To reveal the adaptive selection dynamics during the host adaptation process of AIVs, this study generated a viral library with random mutations in the HA gene of the H9N2 strain. Upon passaging the viral library in chickens and mice, the predominantly selected variants exhibited a preference for Siaα2,3 receptors. Notably, the wild-type strain remained dominant in both inoculated and direct-contact chickens, while variants with the ΔL226/R229I substitutions were preferentially selected in mice. Ferrets have a predominance of Siaα2,6 in their respiratory tract. As expected, the variant harboring the N289D mutation, which prefers Siaα2,6 binding, was enriched during passaging in ferrets. The mice-adapted variant with the ΔL226/R229I mutations causes reduced levels of TNF-α in the early days post-infection in mice, which correlated with an increase in its viral titers. Conversely, elevated levels of IL-6 and IL-1β at five dpi may contribute to the development of the cytokine release syndrome, potentially elucidating the higher fatality rate observed. In conclusion, based on the mutant spectra of the HA gene, this study elucidates the distinct quasispecies dynamics during the adaptation of H9N2 to different hosts, with receptor availability serving as one of the driving factors. Furthermore, a series of critical substitutions that influence the interspecific transmission potential of H9N2 AIVs were identified.IMPORTANCEThe mutation of viruses creates a quasispecies reservoir. In this study, we aimed to investigate the dynamics of quasispecies during the host adaptation of AIVs. We generated a viral library with random mutations in the HA gene of H9N2 and conducted serial passaging in chickens, mice, and ferrets for five generations, respectively. The wild-type strain was dominant in chickens, while mice selected viruses with the ΔL226/R229I substitutions. Both variants showed a preference for binding to Siaα2,3, which aligned with the abundance of Siaα2,3 found in the respiratory tract epithelial cells of chickens and mice. In ferrets, where Siaα2,6 is more prevalent, the variant with the N289D mutation, which prefers Siaα2,6, was found to be enriched. In summary, this study revealed the adaptive selection of H9N2 quasispecies in various hosts, contributing to our understanding of AIV host adaptation.

散发性人感染禽流感病毒（AIV）引发了重大的公共卫生问题。限制AIV传播的一个关键因素是受体结合偏好从Siaα2,3向Siaα2,6的转变。为了揭示AIV在宿主适应过程中的适应性选择动态，本研究构建了一个H9N2毒株HA基因具有随机突变的病毒库。在鸡和小鼠中传代该病毒库后，主要选择的变体表现出对Siaα2,3受体的偏好。值得注意的是，野生型毒株在接种和直接接触的鸡中均占主导地位，而具有ΔL226/R229I替换的变体在小鼠中被优先选择。雪貂呼吸道中主要是Siaα2,6。正如预期的那样，携带偏好Siaα2,6结合的N289D突变的变体在雪貂传代过程中得到富集。具有ΔL226/R229I突变的适应小鼠的变体在小鼠感染后的早期会导致TNF-α水平降低，这与其病毒滴度的增加相关。相反，感染后第5天IL-6和IL-1β水平升高可能导致细胞因子释放综合征的发生，这可能解释了观察到的较高死亡率。总之，基于HA基因的突变谱，本研究阐明了H9N2在适应不同宿主过程中独特的准种动态，受体可利用性是驱动因素之一。此外，还鉴定出了一系列影响H9N2 AIV种间传播潜力的关键替换。

重要性

病毒的突变产生了一个准种库。在本研究中，我们旨在研究AIV在宿主适应过程中的准种动态。我们构建了一个H9N2 HA基因具有随机突变的病毒库，并分别在鸡、小鼠和雪貂中连续传代五代。野生型毒株在鸡中占主导地位，而小鼠选择了具有ΔL226/R229I替换的病毒。这两种变体都表现出对Siaα2,3结合的偏好，这与在鸡和小鼠呼吸道上皮细胞中发现的Siaα2,3的丰度一致。在Siaα2,6更为普遍的雪貂中，发现携带偏好Siaα2,6的N289D突变的变体得到了富集。总之，本研究揭示了H9N2准种在不同宿主中的适应性选择，有助于我们理解AIV的宿主适应。