Abstact

Recurrence of coronavirus outbreaks and zoonotic origins of human coronaviruses underscore the importance of developing pan-coronavirus antivirals. The highly conserved 3C-like protease (3CLpro) in coronaviruses, together with the well-established druggability, makes it an ideal target for broad-spectrum antiviral therapeutics. Here, the inhibitory activity of approved 3CLpro inhibitors, including nirmatrelvir, ensitrelvir, and simnotrelvir, against fifteen 3CLpros is first reported by enzymatic assays. Despite their potent inhibition toward 3CLpros of β-CoVs, these inhibitors show reduced potency against 3CLpros from the other three genera, particularly against two newly identified human coronaviruses (α-CCoV-HuPn-2018 and δ-PDCoV). In this context, continued efforts in structure-based optimization of nirmatrelvir lead to the identification of compound 8 that potently inhibits a panel of 32 3CLpros across all subgenera (IC50s: 19-146 nm), with an IC50 value of 61 and 81 nm against α-CCoV-HuPn-2018 and δ-PDCoV 3CLpros, respectively. Moreover, it effectively inhibits nirmatrelvir-resistant 3CLpro mutants and demonstrates broad-spectrum antiviral efficacy in cells. These findings suggest an important rule that a small, non-cyclic P2 segment and a P4 segment with a suitable size are preferred by the design of ultra-broad-spectrum 3CLpro inhibitors, and provide a proof-of-concept guide for developing broad-spectrum antivirals as potential pan-CoV therapeutics.