Discovery of SARS-CoV-2 Antivirals through Large-scale Drug Repositioning

The emergence of the novel SARS coronavirus 2 (SARS-CoV-2) in 2019 has triggered an ongoing global pandemic of severe pneumonia-like disease designated as coronavirus disease 2019 (COVID-19)(1). The development of a vaccine is likely to require at least 12-18 months, and the typical timeline for app...

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Autores principales: Riva, Laura, Yuan, Shuofeng, Yin, Xin, Martin-Sancho, Laura, Matsunaga, Naoko, Pache, Lars, Burgstaller-Muehlbacher, Sebastian, De Jesus, Paul D., Teriete, Peter, Hull, Mitchell V., Chang, Max W., Chan, Jasper Fuk-Woo, Cao, Jianli, Poon, Vincent Kwok-Man, Herbert, Kristina M., Cheng, Kuoyuan, Nguyen, Tu-Trinh H., Rubanov, Andrey, Pu, Yuan, Nguyen, Courtney, Choi, Angela, Rathnasinghe, Raveen, Schotsaert, Michael, Miorin, Lisa, Dejosez, Marion, Zwaka, Thomas P., Sit, Ko-Yung, Martinez-Sobrido, Luis, Liu, Wen-Chun, White, Kris M., Chapman, Mackenzie E., Lendy, Emma K., Glynne, Richard J., Albrecht, Randy, Ruppin, Eytan, Mesecar, Andrew D., Johnson, Jeffrey R., Benner, Christopher, Sun, Ren, Schultz, Peter G., Su, Andrew I., García-Sastre, Adolfo, Chatterjee, Arnab K., Yuen, Kwok-Yung, Chanda, Sumit K.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2020
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7603405/
https://www.ncbi.nlm.nih.gov/pubmed/32707573
http://dx.doi.org/10.1038/s41586-020-2577-1
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author Riva, Laura
Yuan, Shuofeng
Yin, Xin
Martin-Sancho, Laura
Matsunaga, Naoko
Pache, Lars
Burgstaller-Muehlbacher, Sebastian
De Jesus, Paul D.
Teriete, Peter
Hull, Mitchell V.
Chang, Max W.
Chan, Jasper Fuk-Woo
Cao, Jianli
Poon, Vincent Kwok-Man
Herbert, Kristina M.
Cheng, Kuoyuan
Nguyen, Tu-Trinh H.
Rubanov, Andrey
Pu, Yuan
Nguyen, Courtney
Choi, Angela
Rathnasinghe, Raveen
Schotsaert, Michael
Miorin, Lisa
Dejosez, Marion
Zwaka, Thomas P.
Sit, Ko-Yung
Martinez-Sobrido, Luis
Liu, Wen-Chun
White, Kris M.
Chapman, Mackenzie E.
Lendy, Emma K.
Glynne, Richard J.
Albrecht, Randy
Ruppin, Eytan
Mesecar, Andrew D.
Johnson, Jeffrey R.
Benner, Christopher
Sun, Ren
Schultz, Peter G.
Su, Andrew I.
García-Sastre, Adolfo
Chatterjee, Arnab K.
Yuen, Kwok-Yung
Chanda, Sumit K.
author_facet Riva, Laura
Yuan, Shuofeng
Yin, Xin
Martin-Sancho, Laura
Matsunaga, Naoko
Pache, Lars
Burgstaller-Muehlbacher, Sebastian
De Jesus, Paul D.
Teriete, Peter
Hull, Mitchell V.
Chang, Max W.
Chan, Jasper Fuk-Woo
Cao, Jianli
Poon, Vincent Kwok-Man
Herbert, Kristina M.
Cheng, Kuoyuan
Nguyen, Tu-Trinh H.
Rubanov, Andrey
Pu, Yuan
Nguyen, Courtney
Choi, Angela
Rathnasinghe, Raveen
Schotsaert, Michael
Miorin, Lisa
Dejosez, Marion
Zwaka, Thomas P.
Sit, Ko-Yung
Martinez-Sobrido, Luis
Liu, Wen-Chun
White, Kris M.
Chapman, Mackenzie E.
Lendy, Emma K.
Glynne, Richard J.
Albrecht, Randy
Ruppin, Eytan
Mesecar, Andrew D.
Johnson, Jeffrey R.
Benner, Christopher
Sun, Ren
Schultz, Peter G.
Su, Andrew I.
García-Sastre, Adolfo
Chatterjee, Arnab K.
Yuen, Kwok-Yung
Chanda, Sumit K.
author_sort Riva, Laura
collection PubMed
description The emergence of the novel SARS coronavirus 2 (SARS-CoV-2) in 2019 has triggered an ongoing global pandemic of severe pneumonia-like disease designated as coronavirus disease 2019 (COVID-19)(1). The development of a vaccine is likely to require at least 12-18 months, and the typical timeline for approval of a novel antiviral therapeutic can exceed 10 years. Thus, repurposing of known drugs could significantly accelerate the deployment of novel therapies for COVID-19. Towards this end, we profiled a library of known drugs encompassing approximately 12,000 clinical-stage or FDA-approved small molecules. We report the identification of 100 molecules that inhibit viral replication, including 21 known drugs that exhibit dose response relationships. Of these, thirteen were found to harbor effective concentrations likely commensurate with achievable therapeutic doses in patients, including the PIKfyve kinase inhibitor apilimod(2–4), and the cysteine protease inhibitors MDL-28170, Z LVG CHN2, VBY-825, and ONO 5334. Notably, MDL-28170, ONO 5334, and apilimod were found to antagonize viral replication in human iPSC-derived pneumocyte-like cells, and the PIKfyve inhibitor also demonstrated antiviral efficacy in a primary human lung explant model. Since most of the molecules identified in this study have already advanced into the clinic, the known pharmacological and human safety profiles of these compounds will enable accelerated preclinical and clinical evaluation of these drugs for the treatment of COVID-19.
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spelling pubmed-76034052021-01-24 Discovery of SARS-CoV-2 Antivirals through Large-scale Drug Repositioning Riva, Laura Yuan, Shuofeng Yin, Xin Martin-Sancho, Laura Matsunaga, Naoko Pache, Lars Burgstaller-Muehlbacher, Sebastian De Jesus, Paul D. Teriete, Peter Hull, Mitchell V. Chang, Max W. Chan, Jasper Fuk-Woo Cao, Jianli Poon, Vincent Kwok-Man Herbert, Kristina M. Cheng, Kuoyuan Nguyen, Tu-Trinh H. Rubanov, Andrey Pu, Yuan Nguyen, Courtney Choi, Angela Rathnasinghe, Raveen Schotsaert, Michael Miorin, Lisa Dejosez, Marion Zwaka, Thomas P. Sit, Ko-Yung Martinez-Sobrido, Luis Liu, Wen-Chun White, Kris M. Chapman, Mackenzie E. Lendy, Emma K. Glynne, Richard J. Albrecht, Randy Ruppin, Eytan Mesecar, Andrew D. Johnson, Jeffrey R. Benner, Christopher Sun, Ren Schultz, Peter G. Su, Andrew I. García-Sastre, Adolfo Chatterjee, Arnab K. Yuen, Kwok-Yung Chanda, Sumit K. Nature Article The emergence of the novel SARS coronavirus 2 (SARS-CoV-2) in 2019 has triggered an ongoing global pandemic of severe pneumonia-like disease designated as coronavirus disease 2019 (COVID-19)(1). The development of a vaccine is likely to require at least 12-18 months, and the typical timeline for approval of a novel antiviral therapeutic can exceed 10 years. Thus, repurposing of known drugs could significantly accelerate the deployment of novel therapies for COVID-19. Towards this end, we profiled a library of known drugs encompassing approximately 12,000 clinical-stage or FDA-approved small molecules. We report the identification of 100 molecules that inhibit viral replication, including 21 known drugs that exhibit dose response relationships. Of these, thirteen were found to harbor effective concentrations likely commensurate with achievable therapeutic doses in patients, including the PIKfyve kinase inhibitor apilimod(2–4), and the cysteine protease inhibitors MDL-28170, Z LVG CHN2, VBY-825, and ONO 5334. Notably, MDL-28170, ONO 5334, and apilimod were found to antagonize viral replication in human iPSC-derived pneumocyte-like cells, and the PIKfyve inhibitor also demonstrated antiviral efficacy in a primary human lung explant model. Since most of the molecules identified in this study have already advanced into the clinic, the known pharmacological and human safety profiles of these compounds will enable accelerated preclinical and clinical evaluation of these drugs for the treatment of COVID-19. 2020-07-24 2020-10 /pmc/articles/PMC7603405/ /pubmed/32707573 http://dx.doi.org/10.1038/s41586-020-2577-1 Text en Users may view, print, copy, and download text and data-mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use:http://www.nature.com/authors/editorial_policies/license.html#terms
spellingShingle Article
Riva, Laura
Yuan, Shuofeng
Yin, Xin
Martin-Sancho, Laura
Matsunaga, Naoko
Pache, Lars
Burgstaller-Muehlbacher, Sebastian
De Jesus, Paul D.
Teriete, Peter
Hull, Mitchell V.
Chang, Max W.
Chan, Jasper Fuk-Woo
Cao, Jianli
Poon, Vincent Kwok-Man
Herbert, Kristina M.
Cheng, Kuoyuan
Nguyen, Tu-Trinh H.
Rubanov, Andrey
Pu, Yuan
Nguyen, Courtney
Choi, Angela
Rathnasinghe, Raveen
Schotsaert, Michael
Miorin, Lisa
Dejosez, Marion
Zwaka, Thomas P.
Sit, Ko-Yung
Martinez-Sobrido, Luis
Liu, Wen-Chun
White, Kris M.
Chapman, Mackenzie E.
Lendy, Emma K.
Glynne, Richard J.
Albrecht, Randy
Ruppin, Eytan
Mesecar, Andrew D.
Johnson, Jeffrey R.
Benner, Christopher
Sun, Ren
Schultz, Peter G.
Su, Andrew I.
García-Sastre, Adolfo
Chatterjee, Arnab K.
Yuen, Kwok-Yung
Chanda, Sumit K.
Discovery of SARS-CoV-2 Antivirals through Large-scale Drug Repositioning
title Discovery of SARS-CoV-2 Antivirals through Large-scale Drug Repositioning
title_full Discovery of SARS-CoV-2 Antivirals through Large-scale Drug Repositioning
title_fullStr Discovery of SARS-CoV-2 Antivirals through Large-scale Drug Repositioning
title_full_unstemmed Discovery of SARS-CoV-2 Antivirals through Large-scale Drug Repositioning
title_short Discovery of SARS-CoV-2 Antivirals through Large-scale Drug Repositioning
title_sort discovery of sars-cov-2 antivirals through large-scale drug repositioning
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7603405/
https://www.ncbi.nlm.nih.gov/pubmed/32707573
http://dx.doi.org/10.1038/s41586-020-2577-1
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