SARS-CoV-2 D614G、Alpha、Gamma、Delta和Omicron变体在金仓鼠中的发病机制和传播

Npj viruses Pub Date : 2025-02-24 DOI:10.1038/s44298-025-00092-2

Andra Banete, Bryan D Griffin, Juan C Corredor, Emily Chien, Lily Yip, Tarini N A Gunawardena, Kuganya Nirmalarajah, Jady Liang, Yaejin Lee, Alexander Leacy, Sara Pagliarani, Richard de Borja, Winfield Yim, Hunsang Lee, Yu Onodera, Patryk Aftanas, Patrick Budylowski, Sang Kyun Ahn, Yanlong Pei, Hong Ouyang, Laura Kent, Xinliu Angel Li, Mario A Ostrowski, Robert A Kozak, Sarah K Wootton, Natasha Christie-Holmes, Scott D Gray-Owen, Mikko Taipale, Jared T Simpson, Finlay Maguire, Allison J McGeer, Haibo Zhang, Leonardo Susta, Theo J Moraes, Samira Mubareka

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引用次数: 0

摘要

自从SARS-CoV-2在人类中出现以来，新的变体已经进化成为占主导地位的循环谱系。这些病毒包括D614G （B.1谱系）、Alpha （B.1.1.7）、Gamma （P.1）、Delta （B.1.617.2）和Omicron BA.1 （B.1.1.529）和BA.2 （B.1.1.529.2）病毒。在这里，我们比较了这些变异的病毒复制、发病机制和传播性。在离体人鼻上皮细胞（HNEC）和诱导多能干细胞衍生的肺类器官（IPSC-LOs）中检测了病毒的复制动力学和先天免疫反应，并采用金仓鼠模型检测了病毒的致病性和呼吸道传播潜力。在HNEC竞争试验中，Delta、BA.1和BA.2病毒复制效率更高，并胜过D614G、Alpha和Gamma病毒。然而，与其他变体相比，BA.1和BA.2病毒在IPSC-LOs中复制较差。与D614G感染相比，BA.2病毒感染显著增加了HNECs中IFN-λ1、IFN-λ2、IFN-λ3、IL-6和IL-1RA的分泌，而IPSC-LOs中则没有。与其他变体相比，BA.1和BA.2病毒在仓鼠肺中的复制效率较低；虽然伽马病毒达到了与D614G和德尔塔病毒相当的滴度，但它引起了更大的肺部病理。最后，与其他病毒相比，Gamma和Delta变体通过呼吸道传播的效率更高，而BA.1和BA.2病毒的传播效率较低。这些发现表明，随着SARS-CoV-2变体的不断演变，实验性风险评估仍在发挥作用。

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Pathogenesis and transmission of SARS-CoV-2 D614G, Alpha, Gamma, Delta, and Omicron variants in golden hamsters.

Since the emergence of SARS-CoV-2 in humans, novel variants have evolved to become dominant circulating lineages. These include D614G (B.1 lineage), Alpha (B.1.1.7), Gamma (P.1), Delta (B.1.617.2), and Omicron BA.1 (B.1.1.529) and BA.2 (B.1.1.529.2) viruses. Here, we compared the viral replication, pathogenesis, and transmissibility of these variants. Replication kinetics and innate immune response against the viruses were tested in ex vivo human nasal epithelial cells (HNEC) and induced pluripotent stem cell-derived lung organoids (IPSC-LOs), and the golden hamster model was employed to test pathogenicity and potential for transmission by the respiratory route. Delta, BA.1, and BA.2 viruses replicated more efficiently, and outcompeted D614G, Alpha, and Gamma viruses in an HNEC competition assay. BA.1 and BA.2 viruses, however, replicated poorly in IPSC-LOs compared to other variants. Moreover, BA.2 virus infection significantly increased secretion of IFN-λ1, IFN-λ2, IFN-λ3, IL-6, and IL-1RA in HNECs relative to D614G infection, but not in IPSC-LOs. The BA.1 and BA.2 viruses replicated less effectively in hamster lungs compared to the other variants; and while the Gamma virus reached titers comparable to D614G and Delta viruses, it caused greater lung pathology. Lastly, the Gamma and Delta variants transmitted more efficiently by the respiratory route compared to the other viruses, while BA.1 and BA.2 viruses transmitted less efficiently. These findings demonstrate the ongoing utility of experimental risk assessment as SARS-CoV-2 variants continue to evolve.

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Npj viruses

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