Litcius/Paper detail

A new inactive conformation of SARS-CoV-2 main protease

Emanuele Fornasier, Maria Ludovica Macchia, Gabriele Giachin, Alice Sosic, Matteo Pavan, Mattia Sturlese, Cristiano Salata, Stefano Moro, Barbara Gatto, Massimo Bellanda, Roberto Battistutta

2022Acta Crystallographica Section D Structural Biology21 citationsDOIOpen Access PDF

Abstract

The SARS-CoV-2 main protease (M pro ) has a pivotal role in mediating viral genome replication and transcription of the coronavirus, making it a promising target for drugs against the COVID-19 pandemic. Here, a crystal structure is presented in which M pro adopts an inactive state that has never been observed before, called new-inactive. It is shown that the oxyanion loop, which is involved in substrate recognition and enzymatic activity, adopts a new catalytically incompetent conformation and that many of the key interactions of the active conformation of the enzyme around the active site are lost. Solvation/desolvation energetic contributions play an important role in the transition from the inactive to the active state, with Phe140 moving from an exposed to a buried environment and Asn142 moving from a buried environment to an exposed environment. In new-inactive M pro a new cavity is present near the S2′ subsite, and the N-terminal and C-terminal tails, as well as the dimeric interface, are perturbed, with partial destabilization of the dimeric assembly. This novel conformation is relevant both for comprehension of the mechanism of action of M pro within the catalytic cycle and for the successful structure-based drug design of antiviral drugs.

Topics & Concepts

Active siteChemistryStereochemistryEnzymeOxyanion holeMechanism of actionCatalytic cycleProteaseTranscription (linguistics)Substrate (aquarium)BiochemistryProtein structureHydrolaseStructural biologySubstrate specificityBinding siteDNABiophysicsTransition (genetics)Mechanism (biology)Enzyme activatorCell biologyRational designStructure–activity relationshipConformational changeCrystal structureHIV/AIDS drug development and treatmentComputational Drug Discovery MethodsEnzyme Structure and Function