SARS-CoV-2 identified through crystallographic screening and computational docking

Marion Schuller; Galen J. Correy; Stefan Gahbauer; Daren Fearon; Taiasean Wu; Roberto Efraín Díaz; Iris D. Young; Luan Carvalho Martins; Dominique H. Smith; Ursula Schulze-Gahmen; Tristan W. Owens; Ishan Deshpande; Gregory E. Merz; Aye C. Thwin; Justin T. Biel; Jessica K. Peters; Michelle Moritz; Nadia Herrera; Huong T. Kratochvil; Anthony Aimon; James M. Bennett; Jose Brandao Neto; Aina E. Cohen; Alexandre Dias; Alice Douangamath; Louise Dunnett; Oleg Fedorov; Matteo P. Ferla; Martin R. Fuchs; Tyler J. Gorrie-Stone; James M. Holton; Michael G. Johnson; Tobias Krojer; George Meigs; Ailsa J. Powell; Johannes Gregor Matthias Rack; Victor L. Rangel; Silvia Russi; Rachael E. Skyner; Clyde A. Smith; Alexei S. Soares; Jennifer L. Wierman; Kang Zhu; Peter O Brien; Natalia Jura; Alan Ashworth; John J. Irwin; Michael C. Thompson; Jason E. Gestwicki; Frank Von Delft; Brian K. Shoichet; James S. Fraser; Ivan Ahel

doi:10.1126/sciadv.abf8711

SARS-CoV-2 identified through crystallographic screening and computational docking

Marion Schuller, Galen J. Correy, Stefan Gahbauer, Daren Fearon, Taiasean Wu, Roberto Efraín Díaz, Iris D. Young, Luan Carvalho Martins, Dominique H. Smith, Ursula Schulze-Gahmen, Tristan W. Owens, Ishan Deshpande, Gregory E. Merz, Aye C. Thwin, Justin T. Biel, Jessica K. Peters, Michelle Moritz, Nadia Herrera, Huong T. Kratochvil, Anthony AimonJames M. Bennett, Jose Brandao Neto, Aina E. Cohen, Alexandre Dias, Alice Douangamath, Louise Dunnett, Oleg Fedorov, Matteo P. Ferla, Martin R. Fuchs, Tyler J. Gorrie-Stone, James M. Holton, Michael G. Johnson, Tobias Krojer, George Meigs, Ailsa J. Powell, Johannes Gregor Matthias Rack, Victor L. Rangel, Silvia Russi, Rachael E. Skyner, Clyde A. Smith, Alexei S. Soares, Jennifer L. Wierman, Kang Zhu, Peter O Brien, Natalia Jura, Alan Ashworth, John J. Irwin, Michael C. Thompson, Jason E. Gestwicki, Frank Von Delft, Brian K. Shoichet, James S. Fraser, Ivan Ahel

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

102 Scopus citations

Abstract

The severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) macrodomain within the nonstructural protein 3 counteracts host-mediated antiviral adenosine diphosphate ribosylation signaling. This enzyme is a promising antiviral target because catalytic mutations render viruses nonpathogenic. Here, we report a massive crystallographic screening and computational docking effort, identifying new chemical matter primarily targeting the active site of the macrodomain. Crystallographic screening of 2533 diverse fragments resulted in 214 unique macrodomain-binders. An additional 60 molecules were selected from docking more than 20 million fragments, of which 20 were crystallographically confirmed. X-ray data collection to ultra-high resolution and at physiological temperature enabled assessment of the conformational heterogeneity around the active site. Several fragment hits were confirmed by solution binding using three biophysical techniques (differential scanning fluorimetry, homogeneous time-resolved fluorescence, and isothermal titration calorimetry). The 234 fragment structures explore a wide range of chemotypes and provide starting points for development of potent SARS-CoV-2 macrodomain inhibitors.

Original language	English
Article number	eabf8711
Journal	Science Advances
Volume	7
Issue number	16
DOIs	https://doi.org/10.1126/sciadv.abf8711
State	Published - 14 Apr 2021
Externally published	Yes

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Schuller, M., Correy, G. J., Gahbauer, S., Fearon, D., Wu, T., Díaz, R. E., Young, I. D., Martins, L. C., Smith, D. H., Schulze-Gahmen, U., Owens, T. W., Deshpande, I., Merz, G. E., Thwin, A. C., Biel, J. T., Peters, J. K., Moritz, M., Herrera, N., Kratochvil, H. T., ... Ahel, I. (2021). SARS-CoV-2 identified through crystallographic screening and computational docking. Science Advances, 7(16), Article eabf8711. https://doi.org/10.1126/sciadv.abf8711

@article{913790a280bf4cd89e9b4abde95f8936,

title = "SARS-CoV-2 identified through crystallographic screening and computational docking",

abstract = "The severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) macrodomain within the nonstructural protein 3 counteracts host-mediated antiviral adenosine diphosphate ribosylation signaling. This enzyme is a promising antiviral target because catalytic mutations render viruses nonpathogenic. Here, we report a massive crystallographic screening and computational docking effort, identifying new chemical matter primarily targeting the active site of the macrodomain. Crystallographic screening of 2533 diverse fragments resulted in 214 unique macrodomain-binders. An additional 60 molecules were selected from docking more than 20 million fragments, of which 20 were crystallographically confirmed. X-ray data collection to ultra-high resolution and at physiological temperature enabled assessment of the conformational heterogeneity around the active site. Several fragment hits were confirmed by solution binding using three biophysical techniques (differential scanning fluorimetry, homogeneous time-resolved fluorescence, and isothermal titration calorimetry). The 234 fragment structures explore a wide range of chemotypes and provide starting points for development of potent SARS-CoV-2 macrodomain inhibitors.",

author = "Marion Schuller and Correy, \{Galen J.\} and Stefan Gahbauer and Daren Fearon and Taiasean Wu and D{\'i}az, \{Roberto Efra{\'i}n\} and Young, \{Iris D.\} and Martins, \{Luan Carvalho\} and Smith, \{Dominique H.\} and Ursula Schulze-Gahmen and Owens, \{Tristan W.\} and Ishan Deshpande and Merz, \{Gregory E.\} and Thwin, \{Aye C.\} and Biel, \{Justin T.\} and Peters, \{Jessica K.\} and Michelle Moritz and Nadia Herrera and Kratochvil, \{Huong T.\} and Anthony Aimon and Bennett, \{James M.\} and Neto, \{Jose Brandao\} and Cohen, \{Aina E.\} and Alexandre Dias and Alice Douangamath and Louise Dunnett and Oleg Fedorov and Ferla, \{Matteo P.\} and Fuchs, \{Martin R.\} and Gorrie-Stone, \{Tyler J.\} and Holton, \{James M.\} and Johnson, \{Michael G.\} and Tobias Krojer and George Meigs and Powell, \{Ailsa J.\} and Rack, \{Johannes Gregor Matthias\} and Rangel, \{Victor L.\} and Silvia Russi and Skyner, \{Rachael E.\} and Smith, \{Clyde A.\} and Soares, \{Alexei S.\} and Wierman, \{Jennifer L.\} and Kang Zhu and \{O Brien\}, Peter and Natalia Jura and Alan Ashworth and Irwin, \{John J.\} and Thompson, \{Michael C.\} and Gestwicki, \{Jason E.\} and \{Von Delft\}, Frank and Shoichet, \{Brian K.\} and Fraser, \{James S.\} and Ivan Ahel",

year = "2021",

month = apr,

day = "14",

doi = "10.1126/sciadv.abf8711",

language = "英语",

volume = "7",

journal = "Science Advances",

issn = "2375-2548",

publisher = "American Association for the Advancement of Science",

number = "16",

}

Schuller, M, Correy, GJ, Gahbauer, S, Fearon, D, Wu, T, Díaz, RE, Young, ID, Martins, LC, Smith, DH, Schulze-Gahmen, U, Owens, TW, Deshpande, I, Merz, GE, Thwin, AC, Biel, JT, Peters, JK, Moritz, M, Herrera, N, Kratochvil, HT, Aimon, A, Bennett, JM, Neto, JB, Cohen, AE, Dias, A, Douangamath, A, Dunnett, L, Fedorov, O, Ferla, MP, Fuchs, MR, Gorrie-Stone, TJ, Holton, JM, Johnson, MG, Krojer, T, Meigs, G, Powell, AJ, Rack, JGM, Rangel, VL, Russi, S, Skyner, RE, Smith, CA, Soares, AS, Wierman, JL, Zhu, K, O Brien, P, Jura, N, Ashworth, A, Irwin, JJ, Thompson, MC, Gestwicki, JE, Von Delft, F, Shoichet, BK, Fraser, JS & Ahel, I 2021, 'SARS-CoV-2 identified through crystallographic screening and computational docking', Science Advances, vol. 7, no. 16, eabf8711. https://doi.org/10.1126/sciadv.abf8711

TY - JOUR

T1 - SARS-CoV-2 identified through crystallographic screening and computational docking

AU - Schuller, Marion

AU - Correy, Galen J.

AU - Gahbauer, Stefan

AU - Fearon, Daren

AU - Wu, Taiasean

AU - Díaz, Roberto Efraín

AU - Young, Iris D.

AU - Martins, Luan Carvalho

AU - Smith, Dominique H.

AU - Schulze-Gahmen, Ursula

AU - Owens, Tristan W.

AU - Deshpande, Ishan

AU - Merz, Gregory E.

AU - Thwin, Aye C.

AU - Biel, Justin T.

AU - Peters, Jessica K.

AU - Moritz, Michelle

AU - Herrera, Nadia

AU - Kratochvil, Huong T.

AU - Aimon, Anthony

AU - Bennett, James M.

AU - Neto, Jose Brandao

AU - Cohen, Aina E.

AU - Dias, Alexandre

AU - Douangamath, Alice

AU - Dunnett, Louise

AU - Fedorov, Oleg

AU - Ferla, Matteo P.

AU - Fuchs, Martin R.

AU - Gorrie-Stone, Tyler J.

AU - Holton, James M.

AU - Johnson, Michael G.

AU - Krojer, Tobias

AU - Meigs, George

AU - Powell, Ailsa J.

AU - Rack, Johannes Gregor Matthias

AU - Rangel, Victor L.

AU - Russi, Silvia

AU - Skyner, Rachael E.

AU - Smith, Clyde A.

AU - Soares, Alexei S.

AU - Wierman, Jennifer L.

AU - Zhu, Kang

AU - O Brien, Peter

AU - Jura, Natalia

AU - Ashworth, Alan

AU - Irwin, John J.

AU - Thompson, Michael C.

AU - Gestwicki, Jason E.

AU - Von Delft, Frank

AU - Shoichet, Brian K.

AU - Fraser, James S.

AU - Ahel, Ivan

PY - 2021/4/14

Y1 - 2021/4/14

N2 - The severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) macrodomain within the nonstructural protein 3 counteracts host-mediated antiviral adenosine diphosphate ribosylation signaling. This enzyme is a promising antiviral target because catalytic mutations render viruses nonpathogenic. Here, we report a massive crystallographic screening and computational docking effort, identifying new chemical matter primarily targeting the active site of the macrodomain. Crystallographic screening of 2533 diverse fragments resulted in 214 unique macrodomain-binders. An additional 60 molecules were selected from docking more than 20 million fragments, of which 20 were crystallographically confirmed. X-ray data collection to ultra-high resolution and at physiological temperature enabled assessment of the conformational heterogeneity around the active site. Several fragment hits were confirmed by solution binding using three biophysical techniques (differential scanning fluorimetry, homogeneous time-resolved fluorescence, and isothermal titration calorimetry). The 234 fragment structures explore a wide range of chemotypes and provide starting points for development of potent SARS-CoV-2 macrodomain inhibitors.

AB - The severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) macrodomain within the nonstructural protein 3 counteracts host-mediated antiviral adenosine diphosphate ribosylation signaling. This enzyme is a promising antiviral target because catalytic mutations render viruses nonpathogenic. Here, we report a massive crystallographic screening and computational docking effort, identifying new chemical matter primarily targeting the active site of the macrodomain. Crystallographic screening of 2533 diverse fragments resulted in 214 unique macrodomain-binders. An additional 60 molecules were selected from docking more than 20 million fragments, of which 20 were crystallographically confirmed. X-ray data collection to ultra-high resolution and at physiological temperature enabled assessment of the conformational heterogeneity around the active site. Several fragment hits were confirmed by solution binding using three biophysical techniques (differential scanning fluorimetry, homogeneous time-resolved fluorescence, and isothermal titration calorimetry). The 234 fragment structures explore a wide range of chemotypes and provide starting points for development of potent SARS-CoV-2 macrodomain inhibitors.

UR - https://www.scopus.com/pages/publications/85104473250

U2 - 10.1126/sciadv.abf8711

DO - 10.1126/sciadv.abf8711

M3 - 文章

C2 - 33853786

AN - SCOPUS:85104473250

SN - 2375-2548

VL - 7

JO - Science Advances

JF - Science Advances

IS - 16

M1 - eabf8711

ER -

SARS-CoV-2 identified through crystallographic screening and computational docking

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