Discovery of SARS-CoV-2 Nsp14-Methyltransferase (MTase) Inhibitors by Harnessing Scaffold-Centric Exploration of the Ultra Large Chemical Space.
Journal:
ACS pharmacology & translational science
Published Date:
May 9, 2025
Abstract
The global impact of SARS-CoV-2 underscores the need for antiviral treatments beyond vaccines. This study targets Nsp14-MTase, a viral protein essential for replication. Initial quantitative high-throughput screening (qHTS) of ∼15,000 compounds from the selected NCATS in-house libraries identified 135 active hit molecules, reflecting a hit-rate of 1.04%. To enhance the search for promising antiviral agents, we expanded this screening campaign with two rounds of machine learning (ML)-based virtual screening of ∼130,000 compounds. The first iteration yielded 72 active compounds encompassing 27 chemotypes with an IC ranging from 1.45 μM to 33.27 μM, increasing the hit-rate 28-fold over the initial qHTS screen. Scaffold clustering of those hits revealed 27 chemotypes. The second iteration added 30 more hits (IC: 2.18 μM-30.79 μM) across 12 new chemotypes. Initial structure-activity relationship (SAR) exploration around selected chemotypes identified (IC: 0.41 μM) as the most potent hit. Hit-to-lead optimization using scaffold-centric exploration against the ultra large Enamine REAL Space (∼5.6 billion compounds) in HPC clusters identified 78 analogs, with 56 showing potent biochemical activity (IC: 0.12 μM-18.23 μM) and cellular activity (0.27 μM-23.07 μM) in fully infectious SARS-CoV-2 live virus assays.
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