COVID Moonshot: Open Science Discovery of SARS-CoV-2 Main Protease Inhibitors by Combining Crowdsourcing, High-Throughput Experiments, Computational Simulations, and Machine Learning

COVID Moonshot Consortium; Bruce Milne

doi:10.1101/2020.10.29.339317

COVID Moonshot: Open Science Discovery of SARS-CoV-2 Main Protease Inhibitors by Combining Crowdsourcing, High-Throughput Experiments, Computational Simulations, and Machine Learning

COVID Moonshot Consortium, Bruce Milne

Chemistry

Research output: Working paper › Preprint

Abstract

Version 1

Herein we provide a living summary of the data generated during the COVID Moonshot project focused on the development of SARS-CoV-2 main protease (Mpro) inhibitors. Our approach uniquely combines crowdsourced medicinal chemistry insights with high throughput crystallography, exascale computational chemistry infrastructure for simulations, and machine learning in triaging designs and predicting synthetic routes. This manuscript describes our methodologies leading to both covalent and non-covalent inhibitors displaying protease IC50 values under 150 nM and viral inhibition under 5 uM in multiple different viral replication assays. Furthermore, we provide over 200 crystal structures of fragment-like and lead-like molecules in complex with the main protease. Over 1000 synthesized and ordered compounds are also reported with the corresponding activity in Mpro enzymatic assays using two different experimental setups. The data referenced in this document will be continually updated to reflect the current experimental progress of the COVID Moonshot project, and serves as a citable reference for ensuing publications. All of the generated data is open to other researchers who may find it of use.

Original language	English
Publisher	Cold Spring Harbor Laboratory Press
DOIs	https://doi.org/10.1101/2020.10.29.339317
Publication status	Submitted - 30 Oct 2020

Version History

Article Versions
Version 1 (October 30, 2020)
Version 2 (October 18, 2021)
Version 3 (January 30, 2022)
Version 4 (March 2, 2023)

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10.1101/2020.10.29.339317

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title = "COVID Moonshot: Open Science Discovery of SARS-CoV-2 Main Protease Inhibitors by Combining Crowdsourcing, High-Throughput Experiments, Computational Simulations, and Machine Learning",

abstract = "Version 1Herein we provide a living summary of the data generated during the COVID Moonshot project focused on the development of SARS-CoV-2 main protease (Mpro) inhibitors. Our approach uniquely combines crowdsourced medicinal chemistry insights with high throughput crystallography, exascale computational chemistry infrastructure for simulations, and machine learning in triaging designs and predicting synthetic routes. This manuscript describes our methodologies leading to both covalent and non-covalent inhibitors displaying protease IC50 values under 150 nM and viral inhibition under 5 uM in multiple different viral replication assays. Furthermore, we provide over 200 crystal structures of fragment-like and lead-like molecules in complex with the main protease. Over 1000 synthesized and ordered compounds are also reported with the corresponding activity in Mpro enzymatic assays using two different experimental setups. The data referenced in this document will be continually updated to reflect the current experimental progress of the COVID Moonshot project, and serves as a citable reference for ensuing publications. All of the generated data is open to other researchers who may find it of use.",

author = "Hagit Achdout and Anthony Aimon and Elad Bar-David and Haim Barr and Amir Ben-Shmuel and James Bennett and Bobby, {Melissa L} and Juliane Brun and BVNBS Sarma and Mark Calmiano and Anna Carbery and Emma Cattermole and Chodera, {John D.} and Austin Clyde and Coffland, {Joseph E.} and Galit Cohen and Jason Cole and Alessandro Contini and Lisa Cox and Milan Cvitkovic and Alex Dias and Alice Douangamath and Shirly Duberstein and Tim Dudgeon and Louise Dunnett and Eastman, {Peter K.} and Noam Erez and Michael Fairhead and Daren Fearon and Oleg Fedorov and Matteo Ferla and Holly Foster and Ronen Gabizon and Paul Gehrtz and Carina Gileadi and Charline Giroud and Glass, {William G.} and Robert Glen and Itai Glinert and Marian Gorichko and Tyler Gorrie-Stone and Griffen, {Edward J} and Jag Heer and Michelle Hill and Sam Horrell and Hurley, {Matthew F.D.} and Tomer Israely and Andrew Jajack and Eric Jnoff and Tobias John and {COVID Moonshot Consortium} and Bruce Milne",

year = "2020",

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doi = "10.1101/2020.10.29.339317",

language = "English",

publisher = "Cold Spring Harbor Laboratory Press",

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AU - Achdout, Hagit

AU - Aimon, Anthony

AU - Bar-David, Elad

AU - Barr, Haim

AU - Ben-Shmuel, Amir

AU - Bennett, James

AU - Bobby, Melissa L

AU - Brun, Juliane

AU - Sarma, BVNBS

AU - Calmiano, Mark

AU - Carbery, Anna

AU - Cattermole, Emma

AU - Chodera, John D.

AU - Clyde, Austin

AU - Coffland, Joseph E.

AU - Cohen, Galit

AU - Cole, Jason

AU - Contini, Alessandro

AU - Cox, Lisa

AU - Cvitkovic, Milan

AU - Dias, Alex

AU - Douangamath, Alice

AU - Duberstein, Shirly

AU - Dudgeon, Tim

AU - Dunnett, Louise

AU - Eastman, Peter K.

AU - Erez, Noam

AU - Fairhead, Michael

AU - Fearon, Daren

AU - Fedorov, Oleg

AU - Ferla, Matteo

AU - Foster, Holly

AU - Gabizon, Ronen

AU - Gehrtz, Paul

AU - Gileadi, Carina

AU - Giroud, Charline

AU - Glass, William G.

AU - Glen, Robert

AU - Glinert, Itai

AU - Gorichko, Marian

AU - Gorrie-Stone, Tyler

AU - Griffen, Edward J

AU - Heer, Jag

AU - Hill, Michelle

AU - Horrell, Sam

AU - Hurley, Matthew F.D.

AU - Israely, Tomer

AU - Jajack, Andrew

AU - Jnoff, Eric

AU - John, Tobias

AU - COVID Moonshot Consortium

AU - Milne, Bruce

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N2 - Version 1Herein we provide a living summary of the data generated during the COVID Moonshot project focused on the development of SARS-CoV-2 main protease (Mpro) inhibitors. Our approach uniquely combines crowdsourced medicinal chemistry insights with high throughput crystallography, exascale computational chemistry infrastructure for simulations, and machine learning in triaging designs and predicting synthetic routes. This manuscript describes our methodologies leading to both covalent and non-covalent inhibitors displaying protease IC50 values under 150 nM and viral inhibition under 5 uM in multiple different viral replication assays. Furthermore, we provide over 200 crystal structures of fragment-like and lead-like molecules in complex with the main protease. Over 1000 synthesized and ordered compounds are also reported with the corresponding activity in Mpro enzymatic assays using two different experimental setups. The data referenced in this document will be continually updated to reflect the current experimental progress of the COVID Moonshot project, and serves as a citable reference for ensuing publications. All of the generated data is open to other researchers who may find it of use.

AB - Version 1Herein we provide a living summary of the data generated during the COVID Moonshot project focused on the development of SARS-CoV-2 main protease (Mpro) inhibitors. Our approach uniquely combines crowdsourced medicinal chemistry insights with high throughput crystallography, exascale computational chemistry infrastructure for simulations, and machine learning in triaging designs and predicting synthetic routes. This manuscript describes our methodologies leading to both covalent and non-covalent inhibitors displaying protease IC50 values under 150 nM and viral inhibition under 5 uM in multiple different viral replication assays. Furthermore, we provide over 200 crystal structures of fragment-like and lead-like molecules in complex with the main protease. Over 1000 synthesized and ordered compounds are also reported with the corresponding activity in Mpro enzymatic assays using two different experimental setups. The data referenced in this document will be continually updated to reflect the current experimental progress of the COVID Moonshot project, and serves as a citable reference for ensuing publications. All of the generated data is open to other researchers who may find it of use.

U2 - 10.1101/2020.10.29.339317

DO - 10.1101/2020.10.29.339317

M3 - Preprint

BT - COVID Moonshot: Open Science Discovery of SARS-CoV-2 Main Protease Inhibitors by Combining Crowdsourcing, High-Throughput Experiments, Computational Simulations, and Machine Learning

PB - Cold Spring Harbor Laboratory Press

ER -

COVID Moonshot: Open Science Discovery of SARS-CoV-2 Main Protease Inhibitors by Combining Crowdsourcing, High-Throughput Experiments, Computational Simulations, and Machine Learning

Abstract

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