Pandemic drugs at pandemic speed: infrastructure for accelerating COVID-19 drug discovery with hybrid machine learning- and physics-based simulations on high-performance computers

Mostrar otras versiones (1)

The race to meet the challenges of the global pandemic has served as a reminder that the existing drug discovery process is expensive, inefficient and slow. There is a major bottleneck screening the vast number of potential small molecules to shortlist lead compounds for antiviral drug development....

Descripción completa

Detalles Bibliográficos
Autores principales: Bhati, Agastya P., Wan, Shunzhou, Alfè, Dario, Clyde, Austin R., Bode, Mathis, Tan, Li, Titov, Mikhail, Merzky, Andre, Turilli, Matteo, Jha, Shantenu, Highfield, Roger R., Rocchia, Walter, Scafuri, Nicola, Succi, Sauro, Kranzlmüller, Dieter, Mathias, Gerald, Wifling, David, Donon, Yann, Di Meglio, Alberto, Vallecorsa, Sofia, Ma, Heng, Trifan, Anda, Ramanathan, Arvind, Brettin, Tom, Partin, Alexander, Xia, Fangfang, Duan, Xiaotan, Stevens, Rick, Coveney, Peter V.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Royal Society 2021
Materias:
Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8504892/
https://www.ncbi.nlm.nih.gov/pubmed/34956592
http://dx.doi.org/10.1098/rsfs.2021.0018
_version_ 1784581415451492352
author Bhati, Agastya P.
Wan, Shunzhou
Alfè, Dario
Clyde, Austin R.
Bode, Mathis
Tan, Li
Titov, Mikhail
Merzky, Andre
Turilli, Matteo
Jha, Shantenu
Highfield, Roger R.
Rocchia, Walter
Scafuri, Nicola
Succi, Sauro
Kranzlmüller, Dieter
Mathias, Gerald
Wifling, David
Donon, Yann
Di Meglio, Alberto
Vallecorsa, Sofia
Ma, Heng
Trifan, Anda
Ramanathan, Arvind
Brettin, Tom
Partin, Alexander
Xia, Fangfang
Duan, Xiaotan
Stevens, Rick
Coveney, Peter V.
author_facet Bhati, Agastya P.
Wan, Shunzhou
Alfè, Dario
Clyde, Austin R.
Bode, Mathis
Tan, Li
Titov, Mikhail
Merzky, Andre
Turilli, Matteo
Jha, Shantenu
Highfield, Roger R.
Rocchia, Walter
Scafuri, Nicola
Succi, Sauro
Kranzlmüller, Dieter
Mathias, Gerald
Wifling, David
Donon, Yann
Di Meglio, Alberto
Vallecorsa, Sofia
Ma, Heng
Trifan, Anda
Ramanathan, Arvind
Brettin, Tom
Partin, Alexander
Xia, Fangfang
Duan, Xiaotan
Stevens, Rick
Coveney, Peter V.
author_sort Bhati, Agastya P.
collection PubMed
description The race to meet the challenges of the global pandemic has served as a reminder that the existing drug discovery process is expensive, inefficient and slow. There is a major bottleneck screening the vast number of potential small molecules to shortlist lead compounds for antiviral drug development. New opportunities to accelerate drug discovery lie at the interface between machine learning methods, in this case, developed for linear accelerators, and physics-based methods. The two in silico methods, each have their own advantages and limitations which, interestingly, complement each other. Here, we present an innovative infrastructural development that combines both approaches to accelerate drug discovery. The scale of the potential resulting workflow is such that it is dependent on supercomputing to achieve extremely high throughput. We have demonstrated the viability of this workflow for the study of inhibitors for four COVID-19 target proteins and our ability to perform the required large-scale calculations to identify lead antiviral compounds through repurposing on a variety of supercomputers.
format Online
Article
Text
id pubmed-8504892
institution National Center for Biotechnology Information
language English
publishDate 2021
publisher The Royal Society
record_format MEDLINE/PubMed
spelling pubmed-85048922021-12-23 Pandemic drugs at pandemic speed: infrastructure for accelerating COVID-19 drug discovery with hybrid machine learning- and physics-based simulations on high-performance computers Bhati, Agastya P. Wan, Shunzhou Alfè, Dario Clyde, Austin R. Bode, Mathis Tan, Li Titov, Mikhail Merzky, Andre Turilli, Matteo Jha, Shantenu Highfield, Roger R. Rocchia, Walter Scafuri, Nicola Succi, Sauro Kranzlmüller, Dieter Mathias, Gerald Wifling, David Donon, Yann Di Meglio, Alberto Vallecorsa, Sofia Ma, Heng Trifan, Anda Ramanathan, Arvind Brettin, Tom Partin, Alexander Xia, Fangfang Duan, Xiaotan Stevens, Rick Coveney, Peter V. Interface Focus Articles The race to meet the challenges of the global pandemic has served as a reminder that the existing drug discovery process is expensive, inefficient and slow. There is a major bottleneck screening the vast number of potential small molecules to shortlist lead compounds for antiviral drug development. New opportunities to accelerate drug discovery lie at the interface between machine learning methods, in this case, developed for linear accelerators, and physics-based methods. The two in silico methods, each have their own advantages and limitations which, interestingly, complement each other. Here, we present an innovative infrastructural development that combines both approaches to accelerate drug discovery. The scale of the potential resulting workflow is such that it is dependent on supercomputing to achieve extremely high throughput. We have demonstrated the viability of this workflow for the study of inhibitors for four COVID-19 target proteins and our ability to perform the required large-scale calculations to identify lead antiviral compounds through repurposing on a variety of supercomputers. The Royal Society 2021-10-12 /pmc/articles/PMC8504892/ /pubmed/34956592 http://dx.doi.org/10.1098/rsfs.2021.0018 Text en © 2021 The Authors. https://creativecommons.org/licenses/by/4.0/Published by the Royal Society under the terms of the Creative Commons Attribution License http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, provided the original author and source are credited.
spellingShingle Articles
Bhati, Agastya P.
Wan, Shunzhou
Alfè, Dario
Clyde, Austin R.
Bode, Mathis
Tan, Li
Titov, Mikhail
Merzky, Andre
Turilli, Matteo
Jha, Shantenu
Highfield, Roger R.
Rocchia, Walter
Scafuri, Nicola
Succi, Sauro
Kranzlmüller, Dieter
Mathias, Gerald
Wifling, David
Donon, Yann
Di Meglio, Alberto
Vallecorsa, Sofia
Ma, Heng
Trifan, Anda
Ramanathan, Arvind
Brettin, Tom
Partin, Alexander
Xia, Fangfang
Duan, Xiaotan
Stevens, Rick
Coveney, Peter V.
Pandemic drugs at pandemic speed: infrastructure for accelerating COVID-19 drug discovery with hybrid machine learning- and physics-based simulations on high-performance computers
title Pandemic drugs at pandemic speed: infrastructure for accelerating COVID-19 drug discovery with hybrid machine learning- and physics-based simulations on high-performance computers
title_full Pandemic drugs at pandemic speed: infrastructure for accelerating COVID-19 drug discovery with hybrid machine learning- and physics-based simulations on high-performance computers
title_fullStr Pandemic drugs at pandemic speed: infrastructure for accelerating COVID-19 drug discovery with hybrid machine learning- and physics-based simulations on high-performance computers
title_full_unstemmed Pandemic drugs at pandemic speed: infrastructure for accelerating COVID-19 drug discovery with hybrid machine learning- and physics-based simulations on high-performance computers
title_short Pandemic drugs at pandemic speed: infrastructure for accelerating COVID-19 drug discovery with hybrid machine learning- and physics-based simulations on high-performance computers
title_sort pandemic drugs at pandemic speed: infrastructure for accelerating covid-19 drug discovery with hybrid machine learning- and physics-based simulations on high-performance computers
topic Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8504892/
https://www.ncbi.nlm.nih.gov/pubmed/34956592
http://dx.doi.org/10.1098/rsfs.2021.0018
work_keys_str_mv AT bhatiagastyap pandemicdrugsatpandemicspeedinfrastructureforacceleratingcovid19drugdiscoverywithhybridmachinelearningandphysicsbasedsimulationsonhighperformancecomputers
AT wanshunzhou pandemicdrugsatpandemicspeedinfrastructureforacceleratingcovid19drugdiscoverywithhybridmachinelearningandphysicsbasedsimulationsonhighperformancecomputers
AT alfedario pandemicdrugsatpandemicspeedinfrastructureforacceleratingcovid19drugdiscoverywithhybridmachinelearningandphysicsbasedsimulationsonhighperformancecomputers
AT clydeaustinr pandemicdrugsatpandemicspeedinfrastructureforacceleratingcovid19drugdiscoverywithhybridmachinelearningandphysicsbasedsimulationsonhighperformancecomputers
AT bodemathis pandemicdrugsatpandemicspeedinfrastructureforacceleratingcovid19drugdiscoverywithhybridmachinelearningandphysicsbasedsimulationsonhighperformancecomputers
AT tanli pandemicdrugsatpandemicspeedinfrastructureforacceleratingcovid19drugdiscoverywithhybridmachinelearningandphysicsbasedsimulationsonhighperformancecomputers
AT titovmikhail pandemicdrugsatpandemicspeedinfrastructureforacceleratingcovid19drugdiscoverywithhybridmachinelearningandphysicsbasedsimulationsonhighperformancecomputers
AT merzkyandre pandemicdrugsatpandemicspeedinfrastructureforacceleratingcovid19drugdiscoverywithhybridmachinelearningandphysicsbasedsimulationsonhighperformancecomputers
AT turillimatteo pandemicdrugsatpandemicspeedinfrastructureforacceleratingcovid19drugdiscoverywithhybridmachinelearningandphysicsbasedsimulationsonhighperformancecomputers
AT jhashantenu pandemicdrugsatpandemicspeedinfrastructureforacceleratingcovid19drugdiscoverywithhybridmachinelearningandphysicsbasedsimulationsonhighperformancecomputers
AT highfieldrogerr pandemicdrugsatpandemicspeedinfrastructureforacceleratingcovid19drugdiscoverywithhybridmachinelearningandphysicsbasedsimulationsonhighperformancecomputers
AT rocchiawalter pandemicdrugsatpandemicspeedinfrastructureforacceleratingcovid19drugdiscoverywithhybridmachinelearningandphysicsbasedsimulationsonhighperformancecomputers
AT scafurinicola pandemicdrugsatpandemicspeedinfrastructureforacceleratingcovid19drugdiscoverywithhybridmachinelearningandphysicsbasedsimulationsonhighperformancecomputers
AT succisauro pandemicdrugsatpandemicspeedinfrastructureforacceleratingcovid19drugdiscoverywithhybridmachinelearningandphysicsbasedsimulationsonhighperformancecomputers
AT kranzlmullerdieter pandemicdrugsatpandemicspeedinfrastructureforacceleratingcovid19drugdiscoverywithhybridmachinelearningandphysicsbasedsimulationsonhighperformancecomputers
AT mathiasgerald pandemicdrugsatpandemicspeedinfrastructureforacceleratingcovid19drugdiscoverywithhybridmachinelearningandphysicsbasedsimulationsonhighperformancecomputers
AT wiflingdavid pandemicdrugsatpandemicspeedinfrastructureforacceleratingcovid19drugdiscoverywithhybridmachinelearningandphysicsbasedsimulationsonhighperformancecomputers
AT dononyann pandemicdrugsatpandemicspeedinfrastructureforacceleratingcovid19drugdiscoverywithhybridmachinelearningandphysicsbasedsimulationsonhighperformancecomputers
AT dimeglioalberto pandemicdrugsatpandemicspeedinfrastructureforacceleratingcovid19drugdiscoverywithhybridmachinelearningandphysicsbasedsimulationsonhighperformancecomputers
AT vallecorsasofia pandemicdrugsatpandemicspeedinfrastructureforacceleratingcovid19drugdiscoverywithhybridmachinelearningandphysicsbasedsimulationsonhighperformancecomputers
AT maheng pandemicdrugsatpandemicspeedinfrastructureforacceleratingcovid19drugdiscoverywithhybridmachinelearningandphysicsbasedsimulationsonhighperformancecomputers
AT trifananda pandemicdrugsatpandemicspeedinfrastructureforacceleratingcovid19drugdiscoverywithhybridmachinelearningandphysicsbasedsimulationsonhighperformancecomputers
AT ramanathanarvind pandemicdrugsatpandemicspeedinfrastructureforacceleratingcovid19drugdiscoverywithhybridmachinelearningandphysicsbasedsimulationsonhighperformancecomputers
AT brettintom pandemicdrugsatpandemicspeedinfrastructureforacceleratingcovid19drugdiscoverywithhybridmachinelearningandphysicsbasedsimulationsonhighperformancecomputers
AT partinalexander pandemicdrugsatpandemicspeedinfrastructureforacceleratingcovid19drugdiscoverywithhybridmachinelearningandphysicsbasedsimulationsonhighperformancecomputers
AT xiafangfang pandemicdrugsatpandemicspeedinfrastructureforacceleratingcovid19drugdiscoverywithhybridmachinelearningandphysicsbasedsimulationsonhighperformancecomputers
AT duanxiaotan pandemicdrugsatpandemicspeedinfrastructureforacceleratingcovid19drugdiscoverywithhybridmachinelearningandphysicsbasedsimulationsonhighperformancecomputers
AT stevensrick pandemicdrugsatpandemicspeedinfrastructureforacceleratingcovid19drugdiscoverywithhybridmachinelearningandphysicsbasedsimulationsonhighperformancecomputers
AT coveneypeterv pandemicdrugsatpandemicspeedinfrastructureforacceleratingcovid19drugdiscoverywithhybridmachinelearningandphysicsbasedsimulationsonhighperformancecomputers

Ejemplares similares