Publication date: Jul 09, 2025
The ability of coronaviruses to recombine and cross species barriers affects human and animal health globally and is a pandemic threat. FCoV-23 is a recently emerged, highly pathogenic recombinant coronavirus responsible for a widespread outbreak of feline infectious peritonitis. Here we report cryogenic electron microscopy structures of two FCoV-23 spike isoforms that correspond to the in-host loss of domain 0 observed in clinical samples. The loss of domain 0 markedly enhances the fusogenicity and kinetics of entry into cells and possibly enables biotype switching and lethality. We show that FCoV-23 can use several aminopeptidase N orthologues as receptors and reveal the molecular determinants of receptor species tropism, including a glycan that modulates human receptor engagement. We define antigenic relationships among alphacoronaviruses that infect humans and other mammalian species and identify a cross-reactive alphacoronavirus monoclonal antibody that inhibits FCoV-23 entry. Our results pave the way for the development of vaccines and therapeutics that target this highly pathogenic virus.
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| Concepts | Keywords |
|---|---|
| Coronaviruses | Ability |
| Host | Coronaviruses |
| Isoforms | Cross |
| Pandemic | Domain |
| Recombinant | Domain0 |
| Enhances | |
| Entry | |
| Fcov | |
| Fusogenicity | |
| Kinetics | |
| Loss | |
| Pathogenic | |
| Receptor | |
| Recombine | |
| Spike |