Effects of SARS-CoV-2 Main Protease Mutations at Positions L50, E166, and L167 Rendering Resistance to Covalent and Noncovalent Inhibitors.

Effects of SARS-CoV-2 Main Protease Mutations at Positions L50, E166, and L167 Rendering Resistance to Covalent and Noncovalent Inhibitors.

Publication date: Oct 07, 2024

SARS-CoV-2 propagation under nirmatrelvir and ensitrelvir pressure selects for main protease (MPro) drug-resistant mutations E166V (DRM2), L50F/E166V (DRM3), E166A/L167F (DRM4), and L50F/E166A/L167F (DRM5). DRM2-DRM5 undergoes N-terminal autoprocessing to produce mature MPro with dimer dissociation constants (K) 2-3 times larger than that of the wildtype. Co-selection of L50F restores catalytic activity of DRM2 and DRM4 from ∼10 to 30%, relative to that of the wild-type enzyme, without altering K. Binding affinities and thermodynamic profiles that parallel the drug selection pressure, exhibiting significant decreases in affinity through entropy/enthalpy compensation, were compared with GC373. Reorganization of the active sites due to mutations observed in the inhibitor-free DRM3 and DRM4 structures as compared to MPro may account for the reduced binding affinities, although DRM2 and DRM3 complexes with ensitrelvir are almost identical to MPro-ensitrelvir. Chemical reactivity changes of the mutant active sites due to differences in electrostatic and protein dynamics effects likely contribute to losses in binding affinities.

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Concepts Keywords
Drm4 Affinities
Free Binding
Inhibitors Cov
Mutant Drm2
Thermodynamic Drm3
Drm4
Drug
Ensitrelvir
L50f
Main
Mpro
Mutations
Pressure
Protease
Sars

Semantics

Type Source Name
disease MESH dissociation
disease IDO protein
drug DRUGBANK Rasagiline
disease MESH SARS CoV 2 infection
disease IDO assay
disease IDO symptom
disease MESH emergencies
drug DRUGBANK Gold
disease IDO contact tracing
drug DRUGBANK Etoperidone
drug DRUGBANK Water
disease MESH dyspnea
disease IDO nucleic acid
disease MESH infection
disease MESH infectious diseases
disease MESH influenza
disease MESH pertussis
pathway KEGG Pertussis

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