Rational design of next-generation filovirus vaccines combining glycoprotein stabilization and nanoparticle display with glycan modification
Rational design of next-generation filovirus vaccines combining glycoprotein stabilization and nanoparticle display with glycan modification
Filoviruses pose a significant threat to human health due to frequent outbreaks and high mortality. Although two vector-based vaccines are available for Ebola virus, a broadly protective filovirus vaccine remains elusive. Here, we evaluate a general strategy for stabilizing glycoproteins (GP) from Ebola, Sudan, and Bundibugyo orthoebolaviruses, as well as Ravn orthomarburgvirus. A 3.2 Å crystal structure provides atomic-level details of the redesigned Ebola virus GP, while cryo-electron microscopy reveals how a pan-orthoebolavirus neutralizing antibody targets a conserved site on the stabilized Sudan virus GP (3.13 Å resolution), along with a low-resolution model of antibody-bound Ravn virus GP. A self-assembling protein nanoparticle (SApNP), I3-01v9, is redesigned at the N terminus to enable optimal surface display of filovirus GP trimers. Following detailed in vitro characterization, we examine the lymph node dynamics of Sudan virus GP and GP-presenting SApNPs in mice. Compared with the soluble trimer, SApNPs exhibit ~112-fold longer retention in lymph node follicles, up to 28-fold greater presentation on follicular dendritic cell dendrites, and up to 3-fold stronger germinal center reactions. Functional antibody responses induced by filovirus GP trimers and SApNPs bearing wild-type or modified glycans are assessed in mice. This study provides a foundation for next-generation filovirus vaccine development.
Lee, Yi Zong
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Zhang, Yi Nan
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Newby, Maddy L.
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Ward, Garrett
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Braz Gomes, Keegan
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Auclair, Sarah
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DesRoberts, Connor
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Allen, Joel D.
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Ward, Andrew B.
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Stanfield, Robyn L.
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He, Linling
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Crispin, Max
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Wilson, Ian A.
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Zhu, Jiang
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23 December 2025
Lee, Yi Zong
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Zhang, Yi Nan
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Newby, Maddy L.
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Ward, Garrett
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Braz Gomes, Keegan
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Auclair, Sarah
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DesRoberts, Connor
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Allen, Joel D.
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Ward, Andrew B.
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Stanfield, Robyn L.
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He, Linling
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Crispin, Max
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Wilson, Ian A.
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Zhu, Jiang
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Lee, Yi Zong, Zhang, Yi Nan, Newby, Maddy L., Ward, Garrett, Braz Gomes, Keegan, Auclair, Sarah, DesRoberts, Connor, Allen, Joel D., Ward, Andrew B., Stanfield, Robyn L., He, Linling, Crispin, Max, Wilson, Ian A. and Zhu, Jiang
(2025)
Rational design of next-generation filovirus vaccines combining glycoprotein stabilization and nanoparticle display with glycan modification.
Nature Communications, 16 (1), [11368].
(doi:10.1038/s41467-025-66367-7).
Abstract
Filoviruses pose a significant threat to human health due to frequent outbreaks and high mortality. Although two vector-based vaccines are available for Ebola virus, a broadly protective filovirus vaccine remains elusive. Here, we evaluate a general strategy for stabilizing glycoproteins (GP) from Ebola, Sudan, and Bundibugyo orthoebolaviruses, as well as Ravn orthomarburgvirus. A 3.2 Å crystal structure provides atomic-level details of the redesigned Ebola virus GP, while cryo-electron microscopy reveals how a pan-orthoebolavirus neutralizing antibody targets a conserved site on the stabilized Sudan virus GP (3.13 Å resolution), along with a low-resolution model of antibody-bound Ravn virus GP. A self-assembling protein nanoparticle (SApNP), I3-01v9, is redesigned at the N terminus to enable optimal surface display of filovirus GP trimers. Following detailed in vitro characterization, we examine the lymph node dynamics of Sudan virus GP and GP-presenting SApNPs in mice. Compared with the soluble trimer, SApNPs exhibit ~112-fold longer retention in lymph node follicles, up to 28-fold greater presentation on follicular dendritic cell dendrites, and up to 3-fold stronger germinal center reactions. Functional antibody responses induced by filovirus GP trimers and SApNPs bearing wild-type or modified glycans are assessed in mice. This study provides a foundation for next-generation filovirus vaccine development.
Text
s41467-025-66367-7
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Accepted/In Press date: 5 November 2025
e-pub ahead of print date: 12 December 2025
Published date: 23 December 2025
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© The Author(s) 2025.
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Local EPrints ID: 511273
URI: http://eprints.soton.ac.uk/id/eprint/511273
ISSN: 2041-1723
PURE UUID: fd030af5-9352-4d6a-a1bf-74aa71d06f2b
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Date deposited: 11 May 2026 16:41
Last modified: 12 May 2026 01:55
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Contributors
Author:
Yi Zong Lee
Author:
Yi Nan Zhang
Author:
Maddy L. Newby
Author:
Garrett Ward
Author:
Keegan Braz Gomes
Author:
Sarah Auclair
Author:
Connor DesRoberts
Author:
Joel D. Allen
Author:
Andrew B. Ward
Author:
Robyn L. Stanfield
Author:
Linling He
Author:
Ian A. Wilson
Author:
Jiang Zhu
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