Tian-Yi Dong scite author profile

Tian-Yi Dong

2Publications

74Citation Statements Received

200Citation Statements Given

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179

Affiliations

University of Chinese Academy of Sciences, Wuhan Institute of Virology, Chinese Academy of Sciences

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ACE2-Independent Bat Sarbecovirus Entry and Replication in Human and Bat Cells

Guo

Dong

et al. 2022

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Our studies demonstrate that some unexplored sarbecoviruses are capable of replicating in human and bat cells in an ACE2-independent way but need a high trypsin environment. We found that trypsin is not compensated by other known proteases involved in some coronavirus entry. This work provides important information that the trypsin-dependent entry may be a widely employed mechanism for coronaviruses and will help for further understanding the biological features of the less-studied viruses.

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Isolation of ACE2-dependent and -independent sarbecoviruses from Chinese horseshoe bats

Guo

Dong

et al. 2023

Preprint

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While the spike proteins from SARS-CoV and SARS-CoV-2 bind to host ACE2 to infect cells, the majority of bat sarbecoviruses cannot use ACE2 from any species. Despite their discovery almost 20 years ago, ACE2-independent sarbecoviruses have never been isolated from field samples, leading to the assumption these viruses pose little risk to humans. We have previously shown how spike proteins from a small group of ACE2-independent bat sarbecoviruses may possess the ability to infect human cells in the presence of exogenous trypsin. Here, we adapted our earlier findings into a virus isolation protocol, and recovered two new ACE2-dependent viruses, RsYN2012 and RsYN2016, as well as an ACE2-independent virus, RsHuB2019. Although our stocks of RsHuB2019 rapidly acquired a tissue-culture adaption that rendered the spike protein resistant to trypsin, trypsin was still required for viral entry, suggesting limitations on the exogenous entry factors that support bat sarbecoviruses. Electron microscopy revealed ACE2-independent sarbecoviruses have a prominent spike corona and share similar morphology to other coronaviruses. Our findings demonstrate a broader zoonotic threat posed by sarbecoviruses and shed light onto the intricacies of coronavirus isolation and propagationin vitro.SIGNIFICANCESeveral coronaviruses have transmitted from animals to people and 20 years of virus discovery studies have uncovered thousands of new coronavirus sequences in nature. Most of the animal-derived sarbecoviruses have never been isolated in culture due to cell incompatibilities and a poor understanding of thein vitrorequirements for their propagation. Here, we built on our growing body of work characterizing viral entry mechanisms of bat sarbecoviruses in human cells and have developed a virus isolation protocol that allows for exploration of these understudied viruses. Our protocol is robust and practical, leading to successful isolation of more sarbecoviruses than previous approaches and from field samples that had been collected over a 10-year longitudinal study.

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Tian-Yi Dong

ACE2-Independent Bat Sarbecovirus Entry and Replication in Human and Bat Cells

Isolation of ACE2-dependent and -independent sarbecoviruses from Chinese horseshoe bats

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