Human airway and nasal organoids reveal escalating replicative fitness of SARS-CoV-2 emerging variants
Publication date
2023-04-25
Authors
Li, Cun
Huang, Jingjing
Yu, Yifei
Wan, Zhixin
Chiu, Man Chun
Liu, Xiaojuan
Zhang, Shuxin
Cai, Jian Piao
Chu, Hin
Li, Gang
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Advisors
Supervisors
Document Type
Article
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Abstract
The high transmissibility of SARS-CoV-2 Omicron subvariants was generally ascribed to immune escape. It remained unclear whether the emerging variants have gradually acquired replicative fitness in human respiratory epithelial cells. We sought to evaluate the replicative fitness of BA.5 and earlier variants in physiologically active respiratory organoids. BA.5 exhibited a dramatically increased replicative capacity and infectivity than B.1.1.529 and an ancestral strain wildtype (WT) in human nasal and airway organoids. BA.5 spike pseudovirus showed a significantly higher entry efficiency than that carrying WT or B.1.1.529 spike. Notably, we observed prominent syncytium formation in BA.5-infected nasal and airway organoids, albeit elusive in WT- and B.1.1.529-infected organoids. BA.5 spike-triggered syncytium formation was verified by lentiviral overexpression of spike in nasal organoids. Moreover, BA.5 replicated modestly in alveolar organoids, with a significantly lower titer than B.1.1.529 and WT. Collectively, the higher entry efficiency and fusogenic activity of BA.5 spike potentiated viral spread through syncytium formation in the human airway epithelium, leading to enhanced replicative fitness and immune evasion, whereas the attenuated replicative capacity of BA.5 in the alveolar organoids may account for its benign clinical manifestation.
Keywords
organoids, SARS-CoV-2, syncytium formation, viral fitness, General
Citation
Li, C, Huang, J, Yu, Y, Wan, Z, Chiu, M C, Liu, X, Zhang, S, Cai, J P, Chu, H, Li, G, Chan, J F W, To, K K W, Yang, Z, Jiang, S, Yuen, K Y, Clevers, H & Zhou, J 2023, 'Human airway and nasal organoids reveal escalating replicative fitness of SARS-CoV-2 emerging variants', Proceedings of the National Academy of Sciences of the United States of America, vol. 120, no. 17, e2300376120. https://doi.org/10.1073/pnas.2300376120