In vitro selection and analysis of SARS-CoV-2 nirmatrelvir resistance mutations contributing to clinical virus resistance surveillance.

In vitro selection and analysis of SARS-CoV-2 nirmatrelvir resistance mutations contributing to clinical virus resistance surveillance.

Publication date: Jul 26, 2024

To facilitate the detection and management of potential clinical antiviral resistance, in vitro selection of drug-resistant severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) against the virus M inhibitor nirmatrelvir (Paxlovid active component) was conducted. Six M mutation patterns containing T304I alone or in combination with T21I, L50F, T135I, S144A, or A173V emerged, with A173V+T304I and T21I+S144A+T304I mutations showing >20-fold resistance each. Biochemical analyses indicated inhibition constant shifts aligned to antiviral results, with S144A and A173V each markedly reducing nirmatrelvir inhibition and M activity. SARS-CoV-2 surveillance revealed that in vitro resistance-associated mutations from our studies and those reported in the literature were rarely detected in the Global Initiative on Sharing All Influenza Data database. In the Paxlovid Evaluation of Protease Inhibition for COVID-19 in High-Risk Patients trial, E166V was the only emergent resistance mutation, observed in three Paxlovid-treated patients, none of whom experienced COVID-19-related hospitalization or death.

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Concepts Keywords
Coronavirus Antiviral Agents
Global Antiviral Agents
Hospitalization Coronavirus 3C Proteases
Resistant Coronavirus 3C Proteases
T135i COVID-19
COVID-19 Drug Treatment
Drug Resistance, Viral
Humans
Lactams
Lactams
Leucine
Leucine
Mutation
nirmatrelvir
Nitriles
Nitriles
Proline
Proline
SARS-CoV-2

Semantics

Type Source Name
disease VO Severe acute respiratory syndrome coronavirus 2
disease MESH Influenza
disease MESH COVID-19
disease MESH death
drug DRUGBANK L-Leucine
drug DRUGBANK Proline

Original Article

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