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ABSTRACT

A potent SARS coronavirus (CoV) 3CL protease inhibitor (TG-0205221, Ki = 53 nM) has been developed. TG-0205221 showed remarkable activity against SARS CoV and human coronavirus (HCoV) 229E replications by reducing the viral titer by 4.7 log (at 5 microM) for SARS CoV and 5.2 log (at 1.25 microM) for HCoV 229E. The crystal structure of TG-0205221 (resolution = 1.93 A) has revealed a unique binding mode comprising a covalent bond, hydrogen bonds, and numerous hydrophobic interactions. Structural comparisons between TG-0205221 and a natural peptide substrate were also discussed. This information may be applied toward the design of other 3CL protease inhibitors.

Subject(s)

Antiviral Agents/chemical synthesis , Carbamates/chemical synthesis , Cysteine Endopeptidases/chemistry , Dipeptides/chemical synthesis , Viral Proteins/antagonists & inhibitors , Viral Proteins/chemistry , Animals , Antiviral Agents/chemistry , Antiviral Agents/pharmacology , Carbamates/chemistry , Carbamates/pharmacology , Cell Line , Chlorocebus aethiops , Coronavirus 229E, Human/drug effects , Coronavirus 3C Proteases , Crystallography, X-Ray , Dipeptides/chemistry , Dipeptides/pharmacology , Drug Stability , Humans , Hydrogen Bonding , Hydrophobic and Hydrophilic Interactions , Mice , Models, Molecular , Molecular Structure , Rats , Severe acute respiratory syndrome-related coronavirus/drug effects , Structure-Activity Relationship , Virus Replication/drug effects

ABSTRACT

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