Extrinsic stabilization of antiviral ACE2-Fc fusion proteins targeting SARS-CoV-2

Hristo L. Svilenov; Florent Delhommel; Till Siebenmorgen; Florian Rührnößl; Grzegorz M. Popowicz; Alwin Reiter; Michael Sattler; Carsten Brockmeyer; Johannes Buchner

doi:10.1038/s42003-023-04762-w

Extrinsic stabilization of antiviral ACE2-Fc fusion proteins targeting SARS-CoV-2

Hristo L. Svilenov, Florent Delhommel, Till Siebenmorgen, Florian Rührnößl, Grzegorz M. Popowicz, Alwin Reiter, Michael Sattler, Carsten Brockmeyer, Johannes Buchner

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

4 Scopus citations

Abstract

The angiotensin-converting enzyme 2 (ACE2) is a viral receptor used by sarbecoviruses to infect cells. Fusion proteins comprising extracellular ACE2 domains and the Fc part of immunoglobulins exhibit high virus neutralization efficiency, but the structure and stability of these molecules are poorly understood. We show that although the hinge between the ACE2 and the IgG4-Fc is highly flexible, the conformational dynamics of the two ACE2 domains is restricted by their association. Interestingly, the conformational stability of the ACE2 moiety is much lower than that of the Fc part. We found that chemical compounds binding to ACE2, such as DX600 and MLN4760, can be used to strongly increase the thermal stability of the ACE2 by different mechanisms. Together, our findings reveal a general concept for stabilizing the labile receptor segments of therapeutic antiviral fusion proteins by chemical compounds.

Original language	English
Article number	386
Journal	Communications Biology
Volume	6
Issue number	1
DOIs	https://doi.org/10.1038/s42003-023-04762-w
State	Published - Dec 2023

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abstract = "The angiotensin-converting enzyme 2 (ACE2) is a viral receptor used by sarbecoviruses to infect cells. Fusion proteins comprising extracellular ACE2 domains and the Fc part of immunoglobulins exhibit high virus neutralization efficiency, but the structure and stability of these molecules are poorly understood. We show that although the hinge between the ACE2 and the IgG4-Fc is highly flexible, the conformational dynamics of the two ACE2 domains is restricted by their association. Interestingly, the conformational stability of the ACE2 moiety is much lower than that of the Fc part. We found that chemical compounds binding to ACE2, such as DX600 and MLN4760, can be used to strongly increase the thermal stability of the ACE2 by different mechanisms. Together, our findings reveal a general concept for stabilizing the labile receptor segments of therapeutic antiviral fusion proteins by chemical compounds.",

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AU - Svilenov, Hristo L.

AU - Delhommel, Florent

AU - Siebenmorgen, Till

AU - Rührnößl, Florian

AU - Popowicz, Grzegorz M.

AU - Reiter, Alwin

AU - Sattler, Michael

AU - Brockmeyer, Carsten

AU - Buchner, Johannes

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AB - The angiotensin-converting enzyme 2 (ACE2) is a viral receptor used by sarbecoviruses to infect cells. Fusion proteins comprising extracellular ACE2 domains and the Fc part of immunoglobulins exhibit high virus neutralization efficiency, but the structure and stability of these molecules are poorly understood. We show that although the hinge between the ACE2 and the IgG4-Fc is highly flexible, the conformational dynamics of the two ACE2 domains is restricted by their association. Interestingly, the conformational stability of the ACE2 moiety is much lower than that of the Fc part. We found that chemical compounds binding to ACE2, such as DX600 and MLN4760, can be used to strongly increase the thermal stability of the ACE2 by different mechanisms. Together, our findings reveal a general concept for stabilizing the labile receptor segments of therapeutic antiviral fusion proteins by chemical compounds.

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Extrinsic stabilization of antiviral ACE2-Fc fusion proteins targeting SARS-CoV-2

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