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 |
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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 |