An engineered decoy receptor tightly binds S from diverse SARS-related coronaviruses with limited potential for viral escape. The spike S of SARS-CoV-2 recognizes ACE2 on the host cell membrane to initiate entry. Soluble decoy receptors, in which the ACE2 ectodomain is engineered to block S with high affinity, potently neutralize infection and, because of close similarity with the natural receptor, hold out the promise of being broadly active against virus variants without opportunity for escape. Here, we directly test this hypothesis. We find that an engineered decoy receptor, sACE2 2 .v2.4, tightly binds S of SARS-associated viruses from humans and bats, despite the ACE2-binding surface being a region of high diversity. Saturation mutagenesis of the receptor-binding domain followed by in vitro selection, with wild-type ACE2 and the engineered decoy competing for binding sites, failed to find S mutants that discriminate in favor of the wild-type receptor. We conclude that resistance to engineered decoys will be rare and that decoys may be active against future outbreaks of SARS-associated betacoronaviruses.
【초록키워드】 viruses, SARS-CoV-2, ACE2, Human, Infection, in vitro, Viral, Receptor-binding domain, outbreak, escape, receptors, virus variants, mutant, receptor, bats, binding, Mutagenesis, Hypothesis, similarity, followed by, host cell, host cell membrane, favor, high affinity, promise, SARS-associated betacoronaviruses, SARS-associated viruses, viral escape, saturation, wild-type, ectodomain, SARS-related coronavirus, sACE2, neutralize, bind, recognize, active against, the receptor-binding domain, competing, SARS-associated virus, virus variant, 【제목키워드】 SARS-CoV-2, variant, receptor, protein S, sequence, bind,