Broadly neutralizing antibodies isolated from HEV convalescents confer protective effects in human liver-chimeric mice

George Ssebyatika; Katja Dinkelborg; Luisa J. Ströh; Florian Hinte; Laura Corneillie; Lucas Hueffner; Elina M. Guzman; Prossie L. Nankya; Nina Plückebaum; Lukas Fehlau; Jonathan Garn; Nele Meyer; Sarah Prallet; Ann Kathrin Mehnert; Anke R.M. Kraft; Lieven Verhoye; Carina Jacobsen; Eike Steinmann; Heiner Wedemeyer; Abel Viejo-Borbolla; Viet Loan Dao Thi; Thomas Pietschmann; Marc Lütgehetmann; Philip Meuleman; Maura Dandri; Thomas Krey; Patrick Behrendt

doi:10.1038/s41467-025-57182-1

Broadly neutralizing antibodies isolated from HEV convalescents confer protective effects in human liver-chimeric mice

George Ssebyatika, Katja Dinkelborg, Luisa J. Ströh, Florian Hinte, Laura Corneillie, Lucas Hueffner, Elina M. Guzman, Prossie L. Nankya, Nina Plückebaum, Lukas Fehlau, Jonathan Garn, Nele Meyer, Sarah Prallet, Ann Kathrin Mehnert, Anke R.M. Kraft, Lieven Verhoye, Carina Jacobsen, Eike Steinmann, Heiner Wedemeyer, Abel Viejo-BorbollaViet Loan Dao Thi, Thomas Pietschmann, Marc Lütgehetmann, Philip Meuleman, Maura Dandri, Thomas Krey^*, Patrick Behrendt^*

^*Corresponding author for this work

7 Citations (Scopus)

Abstract

Hepatitis E virus (HEV) causes 3.3 million symptomatic cases and 44,000 deaths per year. Chronic infections can arise in immunocompromised individuals, and pregnant women may suffer from fulminant disease as a consequence of HEV infection. Despite these important implications for public health, no specific antiviral treatment has been approved to date. Here, we report combined functional, biochemical, and X-ray crystallographic studies that characterize the human antibody response in convalescent HEV patients. We identified a class of potent and broadly neutralizing human antibodies (bnAbs), targeting a quaternary epitope located at the tip of the HEV capsid protein pORF2 that contains an N-glycosylation motif and is conserved across members of the Hepeviridae. These glycan-sensitive bnAbs specifically recognize the non-glycosylated pORF2 present in infectious particles but not the secreted glycosylated form acting as antibody decoy. Our most potent bnAb protects human liver-chimeric mice from intraperitoneal HEV challenge and co-housing exposure. These results provide insights into the bnAb response to this important emerging pathogen and support the development of glycan-sensitive antibodies to combat HEV infection.

Original language	English
Article number	1995
Journal	Nature Communications
Volume	16
Issue number	1
ISSN	1751-8628
DOIs	https://doi.org/10.1038/s41467-025-57182-1
Publication status	Published - 12.2025

Research Areas and Centers

Academic Focus: Center for Infection and Inflammation Research (ZIEL)

DFG Research Classification Scheme

2.21-05 Immunology

KDSF Research Field Classification Scheme

841 - Disease prevention

UN SDGs

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

Access to Document

10.1038/s41467-025-57182-1

Cite this

Ssebyatika, G., Dinkelborg, K., Ströh, L. J., Hinte, F., Corneillie, L., Hueffner, L., Guzman, E. M., Nankya, P. L., Plückebaum, N., Fehlau, L., Garn, J., Meyer, N., Prallet, S., Mehnert, A. K., Kraft, A. R. M., Verhoye, L., Jacobsen, C., Steinmann, E., Wedemeyer, H., ... Behrendt, P. (2025). Broadly neutralizing antibodies isolated from HEV convalescents confer protective effects in human liver-chimeric mice. Nature Communications, 16(1), Article 1995. https://doi.org/10.1038/s41467-025-57182-1

@article{ddf8bbcb89524be6884ed49b88bd76a0,

title = "Broadly neutralizing antibodies isolated from HEV convalescents confer protective effects in human liver-chimeric mice",

abstract = "Hepatitis E virus (HEV) causes 3.3 million symptomatic cases and 44,000 deaths per year. Chronic infections can arise in immunocompromised individuals, and pregnant women may suffer from fulminant disease as a consequence of HEV infection. Despite these important implications for public health, no specific antiviral treatment has been approved to date. Here, we report combined functional, biochemical, and X-ray crystallographic studies that characterize the human antibody response in convalescent HEV patients. We identified a class of potent and broadly neutralizing human antibodies (bnAbs), targeting a quaternary epitope located at the tip of the HEV capsid protein pORF2 that contains an N-glycosylation motif and is conserved across members of the Hepeviridae. These glycan-sensitive bnAbs specifically recognize the non-glycosylated pORF2 present in infectious particles but not the secreted glycosylated form acting as antibody decoy. Our most potent bnAb protects human liver-chimeric mice from intraperitoneal HEV challenge and co-housing exposure. These results provide insights into the bnAb response to this important emerging pathogen and support the development of glycan-sensitive antibodies to combat HEV infection.",

author = "George Ssebyatika and Katja Dinkelborg and Str{\"o}h, \{Luisa J.\} and Florian Hinte and Laura Corneillie and Lucas Hueffner and Guzman, \{Elina M.\} and Nankya, \{Prossie L.\} and Nina Pl{\"u}ckebaum and Lukas Fehlau and Jonathan Garn and Nele Meyer and Sarah Prallet and Mehnert, \{Ann Kathrin\} and Kraft, \{Anke R.M.\} and Lieven Verhoye and Carina Jacobsen and Eike Steinmann and Heiner Wedemeyer and Abel Viejo-Borbolla and \{Dao Thi\}, \{Viet Loan\} and Thomas Pietschmann and Marc L{\"u}tgehetmann and Philip Meuleman and Maura Dandri and Thomas Krey and Patrick Behrendt",

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doi = "10.1038/s41467-025-57182-1",

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Ssebyatika, G, Dinkelborg, K, Ströh, LJ, Hinte, F, Corneillie, L, Hueffner, L, Guzman, EM, Nankya, PL, Plückebaum, N, Fehlau, L, Garn, J, Meyer, N, Prallet, S, Mehnert, AK, Kraft, ARM, Verhoye, L, Jacobsen, C, Steinmann, E, Wedemeyer, H, Viejo-Borbolla, A, Dao Thi, VL, Pietschmann, T, Lütgehetmann, M, Meuleman, P, Dandri, M, Krey, T & Behrendt, P 2025, 'Broadly neutralizing antibodies isolated from HEV convalescents confer protective effects in human liver-chimeric mice', Nature Communications, vol. 16, no. 1, 1995. https://doi.org/10.1038/s41467-025-57182-1

TY - JOUR

T1 - Broadly neutralizing antibodies isolated from HEV convalescents confer protective effects in human liver-chimeric mice

AU - Ssebyatika, George

AU - Dinkelborg, Katja

AU - Ströh, Luisa J.

AU - Hinte, Florian

AU - Corneillie, Laura

AU - Hueffner, Lucas

AU - Guzman, Elina M.

AU - Nankya, Prossie L.

AU - Plückebaum, Nina

AU - Fehlau, Lukas

AU - Garn, Jonathan

AU - Meyer, Nele

AU - Prallet, Sarah

AU - Mehnert, Ann Kathrin

AU - Kraft, Anke R.M.

AU - Verhoye, Lieven

AU - Jacobsen, Carina

AU - Steinmann, Eike

AU - Wedemeyer, Heiner

AU - Viejo-Borbolla, Abel

AU - Dao Thi, Viet Loan

AU - Pietschmann, Thomas

AU - Lütgehetmann, Marc

AU - Meuleman, Philip

AU - Dandri, Maura

AU - Krey, Thomas

AU - Behrendt, Patrick

PY - 2025/12

Y1 - 2025/12

N2 - Hepatitis E virus (HEV) causes 3.3 million symptomatic cases and 44,000 deaths per year. Chronic infections can arise in immunocompromised individuals, and pregnant women may suffer from fulminant disease as a consequence of HEV infection. Despite these important implications for public health, no specific antiviral treatment has been approved to date. Here, we report combined functional, biochemical, and X-ray crystallographic studies that characterize the human antibody response in convalescent HEV patients. We identified a class of potent and broadly neutralizing human antibodies (bnAbs), targeting a quaternary epitope located at the tip of the HEV capsid protein pORF2 that contains an N-glycosylation motif and is conserved across members of the Hepeviridae. These glycan-sensitive bnAbs specifically recognize the non-glycosylated pORF2 present in infectious particles but not the secreted glycosylated form acting as antibody decoy. Our most potent bnAb protects human liver-chimeric mice from intraperitoneal HEV challenge and co-housing exposure. These results provide insights into the bnAb response to this important emerging pathogen and support the development of glycan-sensitive antibodies to combat HEV infection.

AB - Hepatitis E virus (HEV) causes 3.3 million symptomatic cases and 44,000 deaths per year. Chronic infections can arise in immunocompromised individuals, and pregnant women may suffer from fulminant disease as a consequence of HEV infection. Despite these important implications for public health, no specific antiviral treatment has been approved to date. Here, we report combined functional, biochemical, and X-ray crystallographic studies that characterize the human antibody response in convalescent HEV patients. We identified a class of potent and broadly neutralizing human antibodies (bnAbs), targeting a quaternary epitope located at the tip of the HEV capsid protein pORF2 that contains an N-glycosylation motif and is conserved across members of the Hepeviridae. These glycan-sensitive bnAbs specifically recognize the non-glycosylated pORF2 present in infectious particles but not the secreted glycosylated form acting as antibody decoy. Our most potent bnAb protects human liver-chimeric mice from intraperitoneal HEV challenge and co-housing exposure. These results provide insights into the bnAb response to this important emerging pathogen and support the development of glycan-sensitive antibodies to combat HEV infection.

UR - https://www.scopus.com/pages/publications/85218795780

U2 - 10.1038/s41467-025-57182-1

DO - 10.1038/s41467-025-57182-1

M3 - Journal articles

C2 - 40011441

AN - SCOPUS:85218795780

SN - 1751-8628

VL - 16

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 1995

ER -

Broadly neutralizing antibodies isolated from HEV convalescents confer protective effects in human liver-chimeric mice

Abstract

Research Areas and Centers

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UN SDGs

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Wissenschaftspreis der MINT-Sektionen 2025

Cite this

Broadly neutralizing antibodies isolated from HEV convalescents confer protective effects in human liver-chimeric mice

Abstract

Research Areas and Centers

DFG Research Classification Scheme

KDSF Research Field Classification Scheme

UN SDGs

Access to Document

Other files and links

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Wissenschaftspreis der MINT-Sektionen 2025

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