Antibody Fc-binding profiles and ACE2 affinity to SARS-CoV-2 RBD variants

Emerging SARS-CoV-2 variants, notably Omicron, continue to remain a formidable challenge to worldwide public health. The SARS-CoV-2 receptor-binding domain (RBD) is a hotspot for mutations, reflecting its critical role at the ACE2 interface during viral entry. Here, we comprehensively investigated t...

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Published in	Medical microbiology and immunology Vol. 212; no. 4; pp. 291 - 305
Main Authors	Haycroft, Ebene R., Davis, Samantha K., Ramanathan, Pradhipa, Lopez, Ester, Purcell, Ruth A., Tan, Li Lynn, Pymm, Phillip, Wines, Bruce D., Hogarth, P. Mark, Wheatley, Adam K., Juno, Jennifer A., Redmond, Samuel J., Gherardin, Nicholas A., Godfrey, Dale I., Tham, Wai-Hong, Selva, Kevin John, Kent, Stephen J., Chung, Amy W.
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.08.2023 Springer Nature B.V
Subjects	ACE2 Affinity Angiotensin-converting enzyme 2 Angiotensin-Converting Enzyme 2 - genetics Antibodies Biomedical and Life Sciences Biomedicine BNT162 Vaccine COVID-19 host-pathogen relationships Humans Immunoglobulin G Immunology interferometry Medical Microbiology Mutation Mutation hot spots neutralization Original Investigation Point mutation Public health Receptors, IgG SARS-CoV-2 - genetics Severe acute respiratory syndrome coronavirus 2 Virology Variants SARS-CoV-2 Fcγ receptors Antibody Receptor binding domain IgG Affinity Omicron ACE-2
Online Access	Get full text
ISSN	0300-8584 1432-1831 1432-1831
DOI	10.1007/s00430-023-00773-w

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Abstract	Emerging SARS-CoV-2 variants, notably Omicron, continue to remain a formidable challenge to worldwide public health. The SARS-CoV-2 receptor-binding domain (RBD) is a hotspot for mutations, reflecting its critical role at the ACE2 interface during viral entry. Here, we comprehensively investigated the impact of RBD mutations, including 5 variants of concern (VOC) or interest—including Omicron (BA.2)—and 33 common point mutations, both on IgG recognition and ACE2-binding inhibition, as well as FcγRIIa- and FcγRIIIa-binding antibodies, in plasma from two-dose BNT162b2-vaccine recipients and mild-COVID-19 convalescent subjects obtained during the first wave using a custom-designed bead-based 39-plex array. IgG-recognition and FcγR-binding antibodies were decreased against the RBD of Beta and Omicron, as well as point mutation G446S, found in several Omicron sub-variants as compared to wild type. Notably, while there was a profound decrease in ACE2 inhibition against Omicron, FcγR-binding antibodies were less affected, suggesting that Fc functional antibody responses may be better retained against the RBD of Omicron in comparison to neutralization. Furthermore, while measurement of RBD–ACE2-binding affinity via biolayer interferometry showed that all VOC RBDs have enhanced affinity to human ACE2, we demonstrate that human ACE2 polymorphisms, E35K (rs1348114695) has reduced affinity to VOCs, while K26R (rs4646116) and S19P (rs73635825) have increased binding kinetics to the RBD of VOCs, potentially affecting virus–host interaction and, thereby, host susceptibility. Collectively, our findings provide in-depth coverage of the impact of RBD mutations on key facets of host–virus interactions.
AbstractList	Emerging SARS-CoV-2 variants, notably Omicron, continue to remain a formidable challenge to worldwide public health. The SARS-CoV-2 receptor-binding domain (RBD) is a hotspot for mutations, reflecting its critical role at the ACE2 interface during viral entry. Here, we comprehensively investigated the impact of RBD mutations, including 5 variants of concern (VOC) or interest—including Omicron (BA.2)—and 33 common point mutations, both on IgG recognition and ACE2-binding inhibition, as well as FcγRIIa- and FcγRIIIa-binding antibodies, in plasma from two-dose BNT162b2-vaccine recipients and mild-COVID-19 convalescent subjects obtained during the first wave using a custom-designed bead-based 39-plex array. IgG-recognition and FcγR-binding antibodies were decreased against the RBD of Beta and Omicron, as well as point mutation G446S, found in several Omicron sub-variants as compared to wild type. Notably, while there was a profound decrease in ACE2 inhibition against Omicron, FcγR-binding antibodies were less affected, suggesting that Fc functional antibody responses may be better retained against the RBD of Omicron in comparison to neutralization. Furthermore, while measurement of RBD–ACE2-binding affinity via biolayer interferometry showed that all VOC RBDs have enhanced affinity to human ACE2, we demonstrate that human ACE2 polymorphisms, E35K (rs1348114695) has reduced affinity to VOCs, while K26R (rs4646116) and S19P (rs73635825) have increased binding kinetics to the RBD of VOCs, potentially affecting virus–host interaction and, thereby, host susceptibility. Collectively, our findings provide in-depth coverage of the impact of RBD mutations on key facets of host–virus interactions. Emerging SARS-CoV-2 variants, notably Omicron, continue to remain a formidable challenge to worldwide public health. The SARS-CoV-2 receptor-binding domain (RBD) is a hotspot for mutations, reflecting its critical role at the ACE2 interface during viral entry. Here, we comprehensively investigated the impact of RBD mutations, including 5 variants of concern (VOC) or interest-including Omicron (BA.2)-and 33 common point mutations, both on IgG recognition and ACE2-binding inhibition, as well as FcγRIIa- and FcγRIIIa-binding antibodies, in plasma from two-dose BNT162b2-vaccine recipients and mild-COVID-19 convalescent subjects obtained during the first wave using a custom-designed bead-based 39-plex array. IgG-recognition and FcγR-binding antibodies were decreased against the RBD of Beta and Omicron, as well as point mutation G446S, found in several Omicron sub-variants as compared to wild type. Notably, while there was a profound decrease in ACE2 inhibition against Omicron, FcγR-binding antibodies were less affected, suggesting that Fc functional antibody responses may be better retained against the RBD of Omicron in comparison to neutralization. Furthermore, while measurement of RBD-ACE2-binding affinity via biolayer interferometry showed that all VOC RBDs have enhanced affinity to human ACE2, we demonstrate that human ACE2 polymorphisms, E35K (rs1348114695) has reduced affinity to VOCs, while K26R (rs4646116) and S19P (rs73635825) have increased binding kinetics to the RBD of VOCs, potentially affecting virus-host interaction and, thereby, host susceptibility. Collectively, our findings provide in-depth coverage of the impact of RBD mutations on key facets of host-virus interactions.Emerging SARS-CoV-2 variants, notably Omicron, continue to remain a formidable challenge to worldwide public health. The SARS-CoV-2 receptor-binding domain (RBD) is a hotspot for mutations, reflecting its critical role at the ACE2 interface during viral entry. Here, we comprehensively investigated the impact of RBD mutations, including 5 variants of concern (VOC) or interest-including Omicron (BA.2)-and 33 common point mutations, both on IgG recognition and ACE2-binding inhibition, as well as FcγRIIa- and FcγRIIIa-binding antibodies, in plasma from two-dose BNT162b2-vaccine recipients and mild-COVID-19 convalescent subjects obtained during the first wave using a custom-designed bead-based 39-plex array. IgG-recognition and FcγR-binding antibodies were decreased against the RBD of Beta and Omicron, as well as point mutation G446S, found in several Omicron sub-variants as compared to wild type. Notably, while there was a profound decrease in ACE2 inhibition against Omicron, FcγR-binding antibodies were less affected, suggesting that Fc functional antibody responses may be better retained against the RBD of Omicron in comparison to neutralization. Furthermore, while measurement of RBD-ACE2-binding affinity via biolayer interferometry showed that all VOC RBDs have enhanced affinity to human ACE2, we demonstrate that human ACE2 polymorphisms, E35K (rs1348114695) has reduced affinity to VOCs, while K26R (rs4646116) and S19P (rs73635825) have increased binding kinetics to the RBD of VOCs, potentially affecting virus-host interaction and, thereby, host susceptibility. Collectively, our findings provide in-depth coverage of the impact of RBD mutations on key facets of host-virus interactions.
Author	Kent, Stephen J. Davis, Samantha K. Wheatley, Adam K. Selva, Kevin John Redmond, Samuel J. Juno, Jennifer A. Pymm, Phillip Gherardin, Nicholas A. Purcell, Ruth A. Hogarth, P. Mark Ramanathan, Pradhipa Tham, Wai-Hong Tan, Li Lynn Godfrey, Dale I. Wines, Bruce D. Chung, Amy W. Haycroft, Ebene R. Lopez, Ester
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Keywords	Variants SARS-CoV-2 Fcγ receptors Antibody Receptor binding domain IgG Affinity Omicron ACE-2
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PublicationDateYYYYMMDD	2023-08-01
PublicationDate_xml	– month: 8 year: 2023 text: 20230800
PublicationDecade	2020
PublicationPlace	Berlin/Heidelberg
PublicationPlace_xml	– name: Berlin/Heidelberg – name: Germany – name: Berlin
PublicationTitle	Medical microbiology and immunology
PublicationTitleAbbrev	Med Microbiol Immunol
PublicationTitleAlternate	Med Microbiol Immunol
PublicationYear	2023
Publisher	Springer Berlin Heidelberg Springer Nature B.V
Publisher_xml	– name: Springer Berlin Heidelberg – name: Springer Nature B.V
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volume: 10 year: 2021 ident: 773_CR4 publication-title: Elife doi: 10.7554/eLife.69091 – volume: 8 start-page: 569 issue: 4 year: 2023 ident: 773_CR21 publication-title: Nat Microbiol doi: 10.1038/s41564-023-01359-1
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Snippet	Emerging SARS-CoV-2 variants, notably Omicron, continue to remain a formidable challenge to worldwide public health. The SARS-CoV-2 receptor-binding domain...
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SubjectTerms	ACE2 Affinity Angiotensin-converting enzyme 2 Angiotensin-Converting Enzyme 2 - genetics Antibodies Biomedical and Life Sciences Biomedicine BNT162 Vaccine COVID-19 host-pathogen relationships Humans Immunoglobulin G Immunology interferometry Medical Microbiology Mutation Mutation hot spots neutralization Original Investigation Point mutation Public health Receptors, IgG SARS-CoV-2 - genetics Severe acute respiratory syndrome coronavirus 2 Virology
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Title	Antibody Fc-binding profiles and ACE2 affinity to SARS-CoV-2 RBD variants
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