Sialoglycan binding triggers spike opening in a human coronavirus

Matti F Pronker; Robert Creutznacher; Ieva Drulyte; Ruben J G Hulswit; Zeshi Li; Frank J M van Kuppeveld; Joost Snijder; Yifei Lang; Berend-Jan Bosch; Geert-Jan Boons; Martin Frank; Raoul J de Groot; Daniel L Hurdiss

doi:10.1038/s41586-023-06599-z

Sialoglycan binding triggers spike opening in a human coronavirus

Matti F Pronker, Robert Creutznacher, Ieva Drulyte, Ruben J G Hulswit, Zeshi Li, Frank J M van Kuppeveld, Joost Snijder, Yifei Lang, Berend-Jan Bosch, Geert-Jan Boons, Martin Frank, Raoul J de Groot^*, Daniel L Hurdiss^*

^*Corresponding author for this work

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

Abstract

Coronavirus spike proteins mediate receptor binding and membrane fusion, making them prime targets for neutralizing antibodies. In the cases of severe acute respiratory syndrome coronavirus, severe acute respiratory syndrome coronavirus 2 and Middle East respiratory syndrome coronavirus, spike proteins transition freely between open and closed conformations to balance host cell attachment and immune evasion 1-5. Spike opening exposes domain S1 B, allowing it to bind to proteinaceous receptors 6,7, and is also thought to enable protein refolding during membrane fusion 4,5. However, with a single exception, the pre-fusion spike proteins of all other coronaviruses studied so far have been observed exclusively in the closed state. This raises the possibility of regulation, with spike proteins more commonly transitioning to open states in response to specific cues, rather than spontaneously. Here, using cryogenic electron microscopy and molecular dynamics simulations, we show that the spike protein of the common cold human coronavirus HKU1 undergoes local and long-range conformational changes after binding a sialoglycan-based primary receptor to domain S1 A. This binding triggers the transition of S1 B domains to the open state through allosteric interdomain crosstalk. Our findings provide detailed insight into coronavirus attachment, with possibilities of dual receptor usage and priming of entry as a means of immune escape.

Original language	English
Pages (from-to)	201-206
Number of pages	6
Journal	Nature
Volume	624
Issue number	7990
Early online date	4 Oct 2023
DOIs	https://doi.org/10.1038/s41586-023-06599-z
Publication status	Published - 4 Oct 2023

Bibliographical note

Funding Information:
We thank R. Dijkman for providing the HKU1 Caen1 sequence and J. de Groot-Mijnes for critically reading the manuscript. We are grateful for computer time provided by BIOGNOS AB, Göteborg. This work was supported by the China Scholarship Council 2014-03250042 (Y.L.). This work made use of the Dutch national e-infrastructure with the support of the SURF Cooperative using grant no. EINF-2453, awarded to D.L.H. R.C. acknowledges funding by the Deutsche Forschungsgemeinschaft (494746248). R.J.G.H. is financially supported by a Dutch research council NWO-XS grant (OCENW.XS22.3.110). G.-J.B. is supported by an ERC advanced grant (SWEETPROMISE, 101020769); M.F.P. and D.L.H. are supported by NWO Veni grants (VI.Veni.202.271 and VI.Veni.212.102, respectively). J.S. is financially supported by the Dutch Research Council NWO Gravitation 2013 BOO, Institute for Chemical Immunology (024.002.009).

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© 2023, The Author(s).

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title = "Sialoglycan binding triggers spike opening in a human coronavirus",

abstract = "Coronavirus spike proteins mediate receptor binding and membrane fusion, making them prime targets for neutralizing antibodies. In the cases of severe acute respiratory syndrome coronavirus, severe acute respiratory syndrome coronavirus 2 and Middle East respiratory syndrome coronavirus, spike proteins transition freely between open and closed conformations to balance host cell attachment and immune evasion 1-5. Spike opening exposes domain S1 B, allowing it to bind to proteinaceous receptors 6,7, and is also thought to enable protein refolding during membrane fusion 4,5. However, with a single exception, the pre-fusion spike proteins of all other coronaviruses studied so far have been observed exclusively in the closed state. This raises the possibility of regulation, with spike proteins more commonly transitioning to open states in response to specific cues, rather than spontaneously. Here, using cryogenic electron microscopy and molecular dynamics simulations, we show that the spike protein of the common cold human coronavirus HKU1 undergoes local and long-range conformational changes after binding a sialoglycan-based primary receptor to domain S1 A. This binding triggers the transition of S1 B domains to the open state through allosteric interdomain crosstalk. Our findings provide detailed insight into coronavirus attachment, with possibilities of dual receptor usage and priming of entry as a means of immune escape. ",

author = "Pronker, {Matti F} and Robert Creutznacher and Ieva Drulyte and Hulswit, {Ruben J G} and Zeshi Li and {van Kuppeveld}, {Frank J M} and Joost Snijder and Yifei Lang and Berend-Jan Bosch and Geert-Jan Boons and Martin Frank and {de Groot}, {Raoul J} and Hurdiss, {Daniel L}",

note = "Funding Information: We thank R. Dijkman for providing the HKU1 Caen1 sequence and J. de Groot-Mijnes for critically reading the manuscript. We are grateful for computer time provided by BIOGNOS AB, G{\"o}teborg. This work was supported by the China Scholarship Council 2014-03250042 (Y.L.). This work made use of the Dutch national e-infrastructure with the support of the SURF Cooperative using grant no. EINF-2453, awarded to D.L.H. R.C. acknowledges funding by the Deutsche Forschungsgemeinschaft (494746248). R.J.G.H. is financially supported by a Dutch research council NWO-XS grant (OCENW.XS22.3.110). G.-J.B. is supported by an ERC advanced grant (SWEETPROMISE, 101020769); M.F.P. and D.L.H. are supported by NWO Veni grants (VI.Veni.202.271 and VI.Veni.212.102, respectively). J.S. is financially supported by the Dutch Research Council NWO Gravitation 2013 BOO, Institute for Chemical Immunology (024.002.009). Publisher Copyright: {\textcopyright} 2023, The Author(s).",

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AU - Creutznacher, Robert

AU - Drulyte, Ieva

AU - Hulswit, Ruben J G

AU - Li, Zeshi

AU - van Kuppeveld, Frank J M

AU - Snijder, Joost

AU - Lang, Yifei

AU - Bosch, Berend-Jan

AU - Boons, Geert-Jan

AU - Frank, Martin

AU - de Groot, Raoul J

AU - Hurdiss, Daniel L

N1 - Funding Information: We thank R. Dijkman for providing the HKU1 Caen1 sequence and J. de Groot-Mijnes for critically reading the manuscript. We are grateful for computer time provided by BIOGNOS AB, Göteborg. This work was supported by the China Scholarship Council 2014-03250042 (Y.L.). This work made use of the Dutch national e-infrastructure with the support of the SURF Cooperative using grant no. EINF-2453, awarded to D.L.H. R.C. acknowledges funding by the Deutsche Forschungsgemeinschaft (494746248). R.J.G.H. is financially supported by a Dutch research council NWO-XS grant (OCENW.XS22.3.110). G.-J.B. is supported by an ERC advanced grant (SWEETPROMISE, 101020769); M.F.P. and D.L.H. are supported by NWO Veni grants (VI.Veni.202.271 and VI.Veni.212.102, respectively). J.S. is financially supported by the Dutch Research Council NWO Gravitation 2013 BOO, Institute for Chemical Immunology (024.002.009). Publisher Copyright: © 2023, The Author(s).

PY - 2023/10/4

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N2 - Coronavirus spike proteins mediate receptor binding and membrane fusion, making them prime targets for neutralizing antibodies. In the cases of severe acute respiratory syndrome coronavirus, severe acute respiratory syndrome coronavirus 2 and Middle East respiratory syndrome coronavirus, spike proteins transition freely between open and closed conformations to balance host cell attachment and immune evasion 1-5. Spike opening exposes domain S1 B, allowing it to bind to proteinaceous receptors 6,7, and is also thought to enable protein refolding during membrane fusion 4,5. However, with a single exception, the pre-fusion spike proteins of all other coronaviruses studied so far have been observed exclusively in the closed state. This raises the possibility of regulation, with spike proteins more commonly transitioning to open states in response to specific cues, rather than spontaneously. Here, using cryogenic electron microscopy and molecular dynamics simulations, we show that the spike protein of the common cold human coronavirus HKU1 undergoes local and long-range conformational changes after binding a sialoglycan-based primary receptor to domain S1 A. This binding triggers the transition of S1 B domains to the open state through allosteric interdomain crosstalk. Our findings provide detailed insight into coronavirus attachment, with possibilities of dual receptor usage and priming of entry as a means of immune escape.

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Sialoglycan binding triggers spike opening in a human coronavirus

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