Broadly neutralizing antibodies targeting pandemic GII.4 variants or seven GII genotypes of human norovirus

Juyeon Park; Lisa C. Lindesmith; Adam S. Olia; Veronica P. Costantini; Paul D. Brewer-Jensen; Michael L. Mallory; Cynthia E. Kelley; Ed Satterwhite; Victoria Longo; Yaroslav Tsybovsky; Tyler Stephens; Jeffrey Marchioni; Christina A. Martins; Yimin Huang; Ridhi Chaudhary; Mark Zweigart; Samantha R. May; Yaoska Reyes; Becca Flitter; Jan Vinje; Sean N. Tucker; Gregory C. Ippolito; Jason J. Lavinder; Joost Snijder; Peter D. Kwong; George Georgiou; Ralph S. Baric

doi:10.1126/scitranslmed.ads8214

Broadly neutralizing antibodies targeting pandemic GII.4 variants or seven GII genotypes of human norovirus

Juyeon Park, Lisa C. Lindesmith, Adam S. Olia, Veronica P. Costantini, Paul D. Brewer-Jensen, Michael L. Mallory, Cynthia E. Kelley, Ed Satterwhite, Victoria Longo, Yaroslav Tsybovsky, Tyler Stephens, Jeffrey Marchioni, Christina A. Martins, Yimin Huang, Ridhi Chaudhary, Mark Zweigart, Samantha R. May, Yaoska Reyes, Becca Flitter, Jan VinjeSean N. Tucker, Gregory C. Ippolito, Jason J. Lavinder, Joost Snijder, Peter D. Kwong, George Georgiou^*, Ralph S. Baric^*

^*Corresponding author for this work

Sub Biomolecular Mass Spectrometry and Proteomics

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

Abstract

Human norovirus causes more than 700 million illnesses annually. Extensive genetic diversity and a paucity of information on conserved neutralizing epitopes pose major obstacles to the design of broadly protective norovirus immunogens. Here, we used high-resolution liquid chromatography-tandem mass spectrometry (LC-MS/MS)-driven proteomics to quantitatively characterize the circulating serum IgG repertoire before and after immunization with an experimental monovalent norovirus GII.4 VP1 capsid-encoding adenoviral vaccine. Two participants were specifically selected on the basis of the breadth of serum neutralization responses either across GII.4 variants (participant A) or across GII genotypes (participant B). In participant A, vaccination back-boosted highly abundant serum antibody clonotypes targeting epitopes conserved among rapidly evolving GII.4 variants spanning from a strain identified in 1987 to a strain identified in 2019. In participant B, we identified a recall response consisting of broadly neutralizing monoclonal antibodies with remarkable cross-GII ligand-binding blockade (blocking >= seven GII genotypes) and virus neutralization breadth. The cocrystal structure of one of these antibodies, VX22, in complex with the VP1 capsid protruding (P) domain revealed a highly conserved epitope (residues 479 to 484 and 509 to 513) within two lateral loops of the P1 subdomain. Antibody evolutionary trajectory analysis further revealed that VX22 had originally evolved from an early heterologous infection, likely by a GII.12 strain. Together, our study demonstrates that norovirus human monoclonal antibodies with broad GII.4 potency and cross-GII breadth can be boosted in serum after immunization with an adenoviral vector-based vaccine, findings that may guide the design of immunogens for broadly protective norovirus vaccines.

Original language	English
Article number	eads8214
Number of pages	14
Journal	Science Translational Medicine
Volume	17
Issue number	788
DOIs	https://doi.org/10.1126/scitranslmed.ads8214
Publication status	Published - 5 Mar 2025

Bibliographical note

Publisher Copyright:
Copyright © 2025 The Authors, some rights reserved

Funding

Acknowledgments: We thank the Microscopy Services Laboratory, Department of Pathology and Laboratory Medicine, University of North Carolina Chapel Hill for excellent technical support. We are indebted to the participants in the Vaxart clinical trial who provided valuable PBMC and serum samples. We thank K. M. Bjornson and D. S. Kim for the assistance in mAb expression, W. N. Voss for technical support with the flow focusing device, J. E. Kim and D. S. Kim for technical support with DLS, and K. Huynh for technical support with HIE culture. We appreciate P. Faull, M. Person, and M. Gadush at the Biological Mass Spectrometry Facility, University of Texas at Austin, Center for Biomedical Research Support for providing proteomics core services (RRID:SCR_021728). Illumina MiSeq 2 \u00D7 300 base pair was performed by the Genomic Sequencing and Analysis Facility at University of Texas at Austin, Center for Biomedical Research Support (RRID: SCR_021713). X-ray diffraction data were collected at Southeast Regional Collaborative Access Team (SER-CAT) 22-ID beamline at the Advanced Photon Source, Argonne National Laboratory. SER-CAT is supported by member institutions and equipment grants (S10_RR25528, S10_RR028976, and S10_OD027000) from the National Institutes of Health. Use of sector 22 (Southeast Region Collaborative Access team) at the Advanced Photon Source was supported by the US Department of Energy, Basic Energy Sciences, Office of Science, under contract number W-31-109-Eng-38. Funding: This study was supported by the National Institute of Allergy and Infectious Disease R01 AI148260 (to R.S.B.) and the Dutch Research Council NWO Gravitation 2013 BOO, Institute for Chemical Immunology 024.002.009 (to J.S.). This research was supported in part by the Vaccine Research Center, an intramural division of National Institute of Allergy and Infectious, NIH.

Funders	Funder number
Basic Energy Sciences
National Institutes of Health
University of North Carolina Wilmington
U.S. Department of Energy
Vaccine Research Center
Argonne National Laboratory	S10_RR028976, S10_RR25528, S10_OD027000
Office of Science	W-31-109-Eng-38
Dutch Research Council NWO	024.002.009
Biological Mass Spectrometry Facility, University of Texas at Austin	SCR_021728, SCR_021713
National Institute of Allergy and Infectious Diseases	R01 AI148260

Keywords

Emergence
Identification
Immune-responses
Mucosal
Norwalk virus
Protection
Repertoire
Replication
Trends
Vaccine

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1126/scitranslmed.ads8214

Cite this

Park, J., Lindesmith, L. C., Olia, A. S., Costantini, V. P., Brewer-Jensen, P. D., Mallory, M. L., Kelley, C. E., Satterwhite, E., Longo, V., Tsybovsky, Y., Stephens, T., Marchioni, J., Martins, C. A., Huang, Y., Chaudhary, R., Zweigart, M., May, S. R., Reyes, Y., Flitter, B., ... Baric, R. S. (2025). Broadly neutralizing antibodies targeting pandemic GII.4 variants or seven GII genotypes of human norovirus. Science Translational Medicine, 17(788), Article eads8214. https://doi.org/10.1126/scitranslmed.ads8214

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abstract = "Human norovirus causes more than 700 million illnesses annually. Extensive genetic diversity and a paucity of information on conserved neutralizing epitopes pose major obstacles to the design of broadly protective norovirus immunogens. Here, we used high-resolution liquid chromatography-tandem mass spectrometry (LC-MS/MS)-driven proteomics to quantitatively characterize the circulating serum IgG repertoire before and after immunization with an experimental monovalent norovirus GII.4 VP1 capsid-encoding adenoviral vaccine. Two participants were specifically selected on the basis of the breadth of serum neutralization responses either across GII.4 variants (participant A) or across GII genotypes (participant B). In participant A, vaccination back-boosted highly abundant serum antibody clonotypes targeting epitopes conserved among rapidly evolving GII.4 variants spanning from a strain identified in 1987 to a strain identified in 2019. In participant B, we identified a recall response consisting of broadly neutralizing monoclonal antibodies with remarkable cross-GII ligand-binding blockade (blocking >= seven GII genotypes) and virus neutralization breadth. The cocrystal structure of one of these antibodies, VX22, in complex with the VP1 capsid protruding (P) domain revealed a highly conserved epitope (residues 479 to 484 and 509 to 513) within two lateral loops of the P1 subdomain. Antibody evolutionary trajectory analysis further revealed that VX22 had originally evolved from an early heterologous infection, likely by a GII.12 strain. Together, our study demonstrates that norovirus human monoclonal antibodies with broad GII.4 potency and cross-GII breadth can be boosted in serum after immunization with an adenoviral vector-based vaccine, findings that may guide the design of immunogens for broadly protective norovirus vaccines.",

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author = "Juyeon Park and Lindesmith, {Lisa C.} and Olia, {Adam S.} and Costantini, {Veronica P.} and Brewer-Jensen, {Paul D.} and Mallory, {Michael L.} and Kelley, {Cynthia E.} and Ed Satterwhite and Victoria Longo and Yaroslav Tsybovsky and Tyler Stephens and Jeffrey Marchioni and Martins, {Christina A.} and Yimin Huang and Ridhi Chaudhary and Mark Zweigart and May, {Samantha R.} and Yaoska Reyes and Becca Flitter and Jan Vinje and Tucker, {Sean N.} and Ippolito, {Gregory C.} and Lavinder, {Jason J.} and Joost Snijder and Kwong, {Peter D.} and George Georgiou and Baric, {Ralph S.}",

note = "Publisher Copyright: Copyright {\textcopyright} 2025 The Authors, some rights reserved",

year = "2025",

month = mar,

day = "5",

doi = "10.1126/scitranslmed.ads8214",

language = "English",

volume = "17",

journal = "Science Translational Medicine",

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Park, J, Lindesmith, LC, Olia, AS, Costantini, VP, Brewer-Jensen, PD, Mallory, ML, Kelley, CE, Satterwhite, E, Longo, V, Tsybovsky, Y, Stephens, T, Marchioni, J, Martins, CA, Huang, Y, Chaudhary, R, Zweigart, M, May, SR, Reyes, Y, Flitter, B, Vinje, J, Tucker, SN, Ippolito, GC, Lavinder, JJ, Snijder, J, Kwong, PD, Georgiou, G & Baric, RS 2025, 'Broadly neutralizing antibodies targeting pandemic GII.4 variants or seven GII genotypes of human norovirus', Science Translational Medicine, vol. 17, no. 788, eads8214. https://doi.org/10.1126/scitranslmed.ads8214

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AU - Park, Juyeon

AU - Lindesmith, Lisa C.

AU - Olia, Adam S.

AU - Costantini, Veronica P.

AU - Brewer-Jensen, Paul D.

AU - Mallory, Michael L.

AU - Kelley, Cynthia E.

AU - Satterwhite, Ed

AU - Longo, Victoria

AU - Tsybovsky, Yaroslav

AU - Stephens, Tyler

AU - Marchioni, Jeffrey

AU - Martins, Christina A.

AU - Huang, Yimin

AU - Chaudhary, Ridhi

AU - Zweigart, Mark

AU - May, Samantha R.

AU - Reyes, Yaoska

AU - Flitter, Becca

AU - Vinje, Jan

AU - Tucker, Sean N.

AU - Ippolito, Gregory C.

AU - Lavinder, Jason J.

AU - Snijder, Joost

AU - Kwong, Peter D.

AU - Georgiou, George

AU - Baric, Ralph S.

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AB - Human norovirus causes more than 700 million illnesses annually. Extensive genetic diversity and a paucity of information on conserved neutralizing epitopes pose major obstacles to the design of broadly protective norovirus immunogens. Here, we used high-resolution liquid chromatography-tandem mass spectrometry (LC-MS/MS)-driven proteomics to quantitatively characterize the circulating serum IgG repertoire before and after immunization with an experimental monovalent norovirus GII.4 VP1 capsid-encoding adenoviral vaccine. Two participants were specifically selected on the basis of the breadth of serum neutralization responses either across GII.4 variants (participant A) or across GII genotypes (participant B). In participant A, vaccination back-boosted highly abundant serum antibody clonotypes targeting epitopes conserved among rapidly evolving GII.4 variants spanning from a strain identified in 1987 to a strain identified in 2019. In participant B, we identified a recall response consisting of broadly neutralizing monoclonal antibodies with remarkable cross-GII ligand-binding blockade (blocking >= seven GII genotypes) and virus neutralization breadth. The cocrystal structure of one of these antibodies, VX22, in complex with the VP1 capsid protruding (P) domain revealed a highly conserved epitope (residues 479 to 484 and 509 to 513) within two lateral loops of the P1 subdomain. Antibody evolutionary trajectory analysis further revealed that VX22 had originally evolved from an early heterologous infection, likely by a GII.12 strain. Together, our study demonstrates that norovirus human monoclonal antibodies with broad GII.4 potency and cross-GII breadth can be boosted in serum after immunization with an adenoviral vector-based vaccine, findings that may guide the design of immunogens for broadly protective norovirus vaccines.

KW - Emergence

KW - Identification

KW - Immune-responses

KW - Mucosal

KW - Norwalk virus

KW - Protection

KW - Repertoire

KW - Replication

KW - Trends

KW - Vaccine

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Broadly neutralizing antibodies targeting pandemic GII.4 variants or seven GII genotypes of human norovirus

Abstract

Bibliographical note

Funding

Keywords

UN SDGs

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