Development of optimized drug-like small molecule inhibitors of the SARS-CoV-2 3CL protease for treatment of COVID-19

Hengrui Liu; Sho Iketani; Arie Zask; Nisha Khanizeman; Eva Bednářová; F. Forouhar; Brandon Fowler; Seo Jung Hong; Hiroshi Mohri; Manoj S. Nair; Yaoxing Huang; Nicholas E. S. Tay; Sumin Lee; Charles Karan; Samuel J. Resnick; Colette F. Quinn; Wenjing Li; Henry Shion; Xin Xia; Jacob D. Daniels; Michelle Bartolo-Cruz; Marcelo Farina; Presha Rajbhandari; Christopher Jurtschenko; Matthew Lauber; Thomas S. McDonald; Michael E. Stokes; Brett L. Hurst; Tomislav Rovis; Alejandro Chavez; David D. Ho; Brent R. Stockwell

doi:10.1038/s41467-022-29413-2

Development of optimized drug-like small molecule inhibitors of the SARS-CoV-2 3CL protease for treatment of COVID-19

Hengrui Liu(Columbia University), Sho Iketani(Aaron Diamond AIDS Research Center), Arie Zask(Columbia University), Nisha Khanizeman(Columbia University), Eva Bednářová(Columbia University), F. Forouhar(Columbia University Irving Medical Center), Brandon Fowler(Columbia University), Seo Jung Hong(Columbia University Irving Medical Center), Hiroshi Mohri(Aaron Diamond AIDS Research Center), Manoj S. Nair(Aaron Diamond AIDS Research Center), Yaoxing Huang(Aaron Diamond AIDS Research Center), Nicholas E. S. Tay(Columbia University), Sumin Lee(Columbia University), Charles Karan(Columbia University), Samuel J. Resnick(Columbia University Irving Medical Center), Colette F. Quinn(Waters (United States)), Wenjing Li(Waters (United States)), Henry Shion(Waters (United States)), Xin Xia(Columbia University), Jacob D. Daniels(Columbia University Irving Medical Center), Michelle Bartolo-Cruz(Columbia University), Marcelo Farina(Universidade Federal de Santa Catarina), Presha Rajbhandari(Columbia University), Christopher Jurtschenko(Waters (United States)), Matthew Lauber(Waters (United States)), Thomas S. McDonald(Waters (United States)), Michael E. Stokes(Columbia University), Brett L. Hurst(Utah State University), Tomislav Rovis(Columbia University), Alejandro Chavez(Columbia University Irving Medical Center), David D. Ho(Aaron Diamond AIDS Research Center), Brent R. Stockwell(Columbia University)

Nature Communications

April 7, 2022

10.1038/s41467-022-29413-2

Cited by 95Open Access

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Abstract

The SARS-CoV-2 3CL protease is a critical drug target for small molecule COVID-19 therapy, given its likely druggability and essentiality in the viral maturation and replication cycle. Based on the conservation of 3CL protease substrate binding pockets across coronaviruses and using screening, we identified four structurally distinct lead compounds that inhibit SARS-CoV-2 3CL protease. After evaluation of their binding specificity, cellular antiviral potency, metabolic stability, and water solubility, we prioritized the GC376 scaffold as being optimal for optimization. We identified multiple drug-like compounds with <10 nM potency for inhibiting SARS-CoV-2 3CL and the ability to block SARS-CoV-2 replication in human cells, obtained co-crystal structures of the 3CL protease in complex with these compounds, and determined that they have pan-coronavirus activity. We selected one compound, termed coronastat, as an optimized lead and characterized it in pharmacokinetic and safety studies in vivo. Coronastat represents a new candidate for a small molecule protease inhibitor for the treatment of SARS-CoV-2 infection for eliminating pandemics involving coronaviruses.

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