Computationally prioritized drugs inhibit SARS-CoV-2 infection and syncytia formation

Angela Serra; Michele Fratello; Antonio Federico; Ravi  Ojha; Riccardo Provenzani; Ervin Tasnadi; Luca Cattelani; Giusy del Giudice; Pia Anneli Sofia Kinaret; Laura Aliisa Saarimäki; Alisa Pavel; Suvi Kuivanen; Vincenzo Cerullo; Olli Vapalahti; Peter Horvarth; Antonio di Lieto; Jari Yli-Kauhaluoma; Giuseppe Balistreri; Dario Greco

doi:10.1093/bib/bbab507

Computationally prioritized drugs inhibit SARS-CoV-2 infection and syncytia formation

Angela Serra, Michele Fratello, Antonio Federico, Ravi Ojha, Riccardo Provenzani, Ervin Tasnadi, Luca Cattelani, Giusy del Giudice, Pia Anneli Sofia Kinaret, Laura Aliisa Saarimäki, Alisa Pavel, Suvi Kuivanen, Vincenzo Cerullo, Olli Vapalahti, Peter Horvarth, Antonio di Lieto, Jari Yli-Kauhaluoma, Giuseppe Balistreri, Dario Greco

Research output: Contribution to journal › Article › Scientific › peer-review

Abstract

The pharmacological arsenal against the COVID-19 pandemic is largely based on generic anti-inflammatory strategies or poorly scalable solutions. Moreover, as the ongoing vaccination campaign is rolling slower than wished, affordable and effective therapeutics are needed. To this end, there is increasing attention toward computational methods for drug repositioning and de novo drug design. Here, multiple data-driven computational approaches are systematically integrated to perform a virtual screening and prioritize candidate drugs for the treatment of COVID-19. From the list of prioritized drugs, a subset of representative candidates to test in human cells is selected. Two compounds, 7-hydroxystaurosporine and bafetinib, show synergistic antiviral effects in vitro and strongly inhibit viral-induced syncytia formation. Moreover, since existing drug repositioning methods provide limited usable information for de novo drug design, the relevant chemical substructures of the identified drugs are extracted to provide a chemical vocabulary that may help to design new effective drugs.

Original language	English
Article number	507
Journal	Briefings in Bioinformatics
Volume	23
Issue number	1
Number of pages	20
ISSN	1467-5463
DOIs	https://doi.org/10.1093/bib/bbab507
Publication status	Published - Jan 2022
MoE publication type	A1 Journal article-refereed

Fields of Science

317 Pharmacy
3121 General medicine, internal medicine and other clinical medicine
113 Computer and information sciences
COVID-19
SARS-CoV-2
drug repositioning
drug design
virtual screening
7-hydroxystaurosporine
bafetinib
syncytia
kinase inhibitors
delta variant
SET ENRICHMENT ANALYSIS
KINASE INHIBITOR
IN-VITRO
EXPRESSION
UCN-01
DISCOVERY
PACKAGE
GENES

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Cite this

Serra, A., Fratello, M., Federico, A., Ojha, R., Provenzani, R., Tasnadi, E., Cattelani, L., del Giudice, G., Kinaret, P. A. S., Saarimäki, L. A., Pavel, A., Kuivanen, S., Cerullo, V., Vapalahti, O., Horvarth, P., di Lieto, A., Yli-Kauhaluoma, J., Balistreri, G., & Greco, D. (2022). Computationally prioritized drugs inhibit SARS-CoV-2 infection and syncytia formation. Briefings in Bioinformatics, 23(1), Article 507. https://doi.org/10.1093/bib/bbab507

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title = "Computationally prioritized drugs inhibit SARS-CoV-2 infection and syncytia formation",

abstract = "The pharmacological arsenal against the COVID-19 pandemic is largely based on generic anti-inflammatory strategies or poorly scalable solutions. Moreover, as the ongoing vaccination campaign is rolling slower than wished, affordable and effective therapeutics are needed. To this end, there is increasing attention toward computational methods for drug repositioning and de novo drug design. Here, multiple data-driven computational approaches are systematically integrated to perform a virtual screening and prioritize candidate drugs for the treatment of COVID-19. From the list of prioritized drugs, a subset of representative candidates to test in human cells is selected. Two compounds, 7-hydroxystaurosporine and bafetinib, show synergistic antiviral effects in vitro and strongly inhibit viral-induced syncytia formation. Moreover, since existing drug repositioning methods provide limited usable information for de novo drug design, the relevant chemical substructures of the identified drugs are extracted to provide a chemical vocabulary that may help to design new effective drugs.",

keywords = "317 Pharmacy, 3121 General medicine, internal medicine and other clinical medicine, 113 Computer and information sciences, COVID-19, SARS-CoV-2, drug repositioning, drug design, virtual screening, 7-hydroxystaurosporine, bafetinib, syncytia, kinase inhibitors, delta variant, SET ENRICHMENT ANALYSIS, KINASE INHIBITOR, IN-VITRO, EXPRESSION, UCN-01, DISCOVERY, PACKAGE, GENES",

author = "Angela Serra and Michele Fratello and Antonio Federico and Ravi Ojha and Riccardo Provenzani and Ervin Tasnadi and Luca Cattelani and {del Giudice}, Giusy and Kinaret, {Pia Anneli Sofia} and Saarim{\"a}ki, {Laura Aliisa} and Alisa Pavel and Suvi Kuivanen and Vincenzo Cerullo and Olli Vapalahti and Peter Horvarth and {di Lieto}, Antonio and Jari Yli-Kauhaluoma and Giuseppe Balistreri and Dario Greco",

year = "2022",

month = jan,

doi = "10.1093/bib/bbab507",

language = "English",

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Serra, A, Fratello, M, Federico, A, Ojha, R , Provenzani, R, Tasnadi, E, Cattelani, L, del Giudice, G, Kinaret, PAS, Saarimäki, LA, Pavel, A, Kuivanen, S , Cerullo, V , Vapalahti, O , Horvarth, P, di Lieto, A, Yli-Kauhaluoma, J , Balistreri, G & Greco, D 2022, 'Computationally prioritized drugs inhibit SARS-CoV-2 infection and syncytia formation', Briefings in Bioinformatics, vol. 23, no. 1, 507. https://doi.org/10.1093/bib/bbab507

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AU - Serra, Angela

AU - Fratello, Michele

AU - Federico, Antonio

AU - Ojha, Ravi

AU - Provenzani, Riccardo

AU - Tasnadi, Ervin

AU - Cattelani, Luca

AU - del Giudice, Giusy

AU - Kinaret, Pia Anneli Sofia

AU - Saarimäki, Laura Aliisa

AU - Pavel, Alisa

AU - Kuivanen, Suvi

AU - Cerullo, Vincenzo

AU - Vapalahti, Olli

AU - Horvarth, Peter

AU - di Lieto, Antonio

AU - Yli-Kauhaluoma, Jari

AU - Balistreri, Giuseppe

AU - Greco, Dario

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N2 - The pharmacological arsenal against the COVID-19 pandemic is largely based on generic anti-inflammatory strategies or poorly scalable solutions. Moreover, as the ongoing vaccination campaign is rolling slower than wished, affordable and effective therapeutics are needed. To this end, there is increasing attention toward computational methods for drug repositioning and de novo drug design. Here, multiple data-driven computational approaches are systematically integrated to perform a virtual screening and prioritize candidate drugs for the treatment of COVID-19. From the list of prioritized drugs, a subset of representative candidates to test in human cells is selected. Two compounds, 7-hydroxystaurosporine and bafetinib, show synergistic antiviral effects in vitro and strongly inhibit viral-induced syncytia formation. Moreover, since existing drug repositioning methods provide limited usable information for de novo drug design, the relevant chemical substructures of the identified drugs are extracted to provide a chemical vocabulary that may help to design new effective drugs.

AB - The pharmacological arsenal against the COVID-19 pandemic is largely based on generic anti-inflammatory strategies or poorly scalable solutions. Moreover, as the ongoing vaccination campaign is rolling slower than wished, affordable and effective therapeutics are needed. To this end, there is increasing attention toward computational methods for drug repositioning and de novo drug design. Here, multiple data-driven computational approaches are systematically integrated to perform a virtual screening and prioritize candidate drugs for the treatment of COVID-19. From the list of prioritized drugs, a subset of representative candidates to test in human cells is selected. Two compounds, 7-hydroxystaurosporine and bafetinib, show synergistic antiviral effects in vitro and strongly inhibit viral-induced syncytia formation. Moreover, since existing drug repositioning methods provide limited usable information for de novo drug design, the relevant chemical substructures of the identified drugs are extracted to provide a chemical vocabulary that may help to design new effective drugs.

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KW - 3121 General medicine, internal medicine and other clinical medicine

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KW - drug design

KW - virtual screening

KW - 7-hydroxystaurosporine

KW - bafetinib

KW - syncytia

KW - kinase inhibitors

KW - delta variant

KW - SET ENRICHMENT ANALYSIS

KW - KINASE INHIBITOR

KW - IN-VITRO

KW - EXPRESSION

KW - UCN-01

KW - DISCOVERY

KW - PACKAGE

KW - GENES

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DO - 10.1093/bib/bbab507

M3 - Article

SN - 1467-5463

VL - 23

JO - Briefings in Bioinformatics

JF - Briefings in Bioinformatics

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