In vivo characterization of the novel ebolavirus Bombali virus suggests a low pathogenic potential for humans

B. S. Bodmer; A. Breithaupt; M. Heung; J. E. Brunetti; C. Henkel; J. Müller-Guhl; E. Rodríguez; L. Wendt; S. L. Winter; M. Vallbracht; A. Müller; S. Römer; P. Chlanda; C. Muñoz-Fontela; T. Hoenen; B. Escudero-Pérez

doi:10.1080/22221751.2022.2164216

In vivo characterization of the novel ebolavirus Bombali virus suggests a low pathogenic potential for humans

B. S. Bodmer, A. Breithaupt, M. Heung, J. E. Brunetti, C. Henkel, J. Müller-Guhl, E. Rodríguez, L. Wendt, S. L. Winter, M. Vallbracht, A. Müller, S. Römer, P. Chlanda, C. Muñoz-Fontela, T. Hoenen, B. Escudero-Pérez

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

2 Scopus citations

Abstract

Ebolaviruses cause outbreaks of haemorrhagic fever in Central and West Africa. Some members of this genus such as Ebola virus (EBOV) are highly pathogenic, with case fatality rates of up to 90%, whereas others such as Reston virus (RESTV) are apathogenic for humans. Bombali virus (BOMV) is a novel ebolavirus for which complete genome sequences were recently found in free-tailed bats, although no infectious virus could be isolated. Its pathogenic potential for humans is unknown. To address this question, we first determined whether proteins encoded by the available BOMV sequence found in Chaerephon pumilus were functional in in vitro assays. The correction of an apparent sequencing error in the glycoprotein based on these data then allowed us to generate infectious BOMV using reverse genetics and characterize its infection of human cells. Furthermore, we used HLA-A2-transgenic, NOD-scid-IL-2γ receptor-knockout (NSG-A2) mice reconstituted with human haematopoiesis as a model to evaluate the pathogenicity of BOMV in vivo in a human-like immune environment. These data demonstrate that not only does BOMV show a slower growth rate than EBOV in vitro, but it also shows low pathogenicity in humanized mice, comparable to previous studies using RESTV. Taken together, these findings suggest a low pathogenic potential of BOMV for humans.

Original language	English
Article number	2164216
Journal	Emerging Microbes and Infections
Volume	12
Issue number	1
DOIs	https://doi.org/10.1080/22221751.2022.2164216
State	Published - 2023
Externally published	Yes

Keywords

Bombali virus
ebolavirus
filovirus
full-length clone
humanized mice
pathogenic potential
reverse genetics
virulence

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10.1080/22221751.2022.2164216

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Bodmer, B. S., Breithaupt, A., Heung, M., Brunetti, J. E., Henkel, C., Müller-Guhl, J., Rodríguez, E., Wendt, L., Winter, S. L., Vallbracht, M., Müller, A., Römer, S., Chlanda, P., Muñoz-Fontela, C., Hoenen, T., & Escudero-Pérez, B. (2023). In vivo characterization of the novel ebolavirus Bombali virus suggests a low pathogenic potential for humans. Emerging Microbes and Infections, 12(1), [2164216]. https://doi.org/10.1080/22221751.2022.2164216

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title = " In vivo characterization of the novel ebolavirus Bombali virus suggests a low pathogenic potential for humans",

abstract = "Ebolaviruses cause outbreaks of haemorrhagic fever in Central and West Africa. Some members of this genus such as Ebola virus (EBOV) are highly pathogenic, with case fatality rates of up to 90%, whereas others such as Reston virus (RESTV) are apathogenic for humans. Bombali virus (BOMV) is a novel ebolavirus for which complete genome sequences were recently found in free-tailed bats, although no infectious virus could be isolated. Its pathogenic potential for humans is unknown. To address this question, we first determined whether proteins encoded by the available BOMV sequence found in Chaerephon pumilus were functional in in vitro assays. The correction of an apparent sequencing error in the glycoprotein based on these data then allowed us to generate infectious BOMV using reverse genetics and characterize its infection of human cells. Furthermore, we used HLA-A2-transgenic, NOD-scid-IL-2γ receptor-knockout (NSG-A2) mice reconstituted with human haematopoiesis as a model to evaluate the pathogenicity of BOMV in vivo in a human-like immune environment. These data demonstrate that not only does BOMV show a slower growth rate than EBOV in vitro, but it also shows low pathogenicity in humanized mice, comparable to previous studies using RESTV. Taken together, these findings suggest a low pathogenic potential of BOMV for humans.",

keywords = "Bombali virus, ebolavirus, filovirus, full-length clone, humanized mice, pathogenic potential, reverse genetics, virulence",

author = "Bodmer, {B. S.} and A. Breithaupt and M. Heung and Brunetti, {J. E.} and C. Henkel and J. M{\"u}ller-Guhl and E. Rodr{\'i}guez and L. Wendt and Winter, {S. L.} and M. Vallbracht and A. M{\"u}ller and S. R{\"o}mer and P. Chlanda and C. Mu{\~n}oz-Fontela and T. Hoenen and B. Escudero-P{\'e}rez",

note = "Funding Information: We thank Gabriele Czerwinski and Silvia Schuparis (Friedrich-Loeffler-Institut) for excellent technical assistance, and Allison Groseth (Friedrich-Loeffler-Institut) for critical reading of the manuscript. We acknowledge access to the infrastructure and support provided by the Infectious Diseases Imaging Platform (IDIP) at the Center for Integrative Infectious Disease Research Heidelberg, the Cryo-EM Network at the Heidelberg University (HD-cryoNet), and IT support at BioQuant Heidelberg. The authors gratefully acknowledge the data storage service SDS@hd supported by the Ministry of Science, Research, and the Arts Baden-W{\"u}rttemberg. Funding Information: This work was supported by the Friedrich-Loeffler-Institut under the grant VISION, by the German Center for Infection Research under the grant TTU 01.702, by a research grant from the Chica and Heinz Schaller Foundation (Schaller Research Group Leader Program), by the German Research Foundation (DFG) under the grant 469065579, and by the German Ministry of Food and Agriculture based on the decision of the Parliament of the Federal Republic of Germany through the Federal Office for Agriculture and Food under the Grant Ebola-Foresight. We thank Gabriele Czerwinski and Silvia Schuparis (Friedrich-Loeffler-Institut) for excellent technical assistance, and Allison Groseth (Friedrich-Loeffler-Institut) for critical reading of the manuscript. We acknowledge access to the infrastructure and support provided by the Infectious Diseases Imaging Platform (IDIP) at the Center for Integrative Infectious Disease Research Heidelberg, the Cryo-EM Network at the Heidelberg University (HD-cryoNet), and IT support at BioQuant Heidelberg. The authors gratefully acknowledge the data storage service SDS@hd supported by the Ministry of Science, Research, and the Arts Baden-W{\"u}rttemberg. Publisher Copyright: {\textcopyright} 2023 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group, on behalf of Shanghai Shangyixun Cultural Communication Co., Ltd.",

year = "2023",

doi = "10.1080/22221751.2022.2164216",

language = "English",

volume = "12",

journal = "Emerging Microbes and Infections",

issn = "2222-1751",

publisher = "Taylor and Francis Ltd.",

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Bodmer, BS, Breithaupt, A, Heung, M, Brunetti, JE, Henkel, C, Müller-Guhl, J, Rodríguez, E, Wendt, L, Winter, SL, Vallbracht, M, Müller, A, Römer, S, Chlanda, P, Muñoz-Fontela, C, Hoenen, T & Escudero-Pérez, B 2023, ' In vivo characterization of the novel ebolavirus Bombali virus suggests a low pathogenic potential for humans', Emerging Microbes and Infections, vol. 12, no. 1, 2164216. https://doi.org/10.1080/22221751.2022.2164216

TY - JOUR

T1 - In vivo characterization of the novel ebolavirus Bombali virus suggests a low pathogenic potential for humans

AU - Bodmer, B. S.

AU - Breithaupt, A.

AU - Heung, M.

AU - Brunetti, J. E.

AU - Henkel, C.

AU - Müller-Guhl, J.

AU - Rodríguez, E.

AU - Wendt, L.

AU - Winter, S. L.

AU - Vallbracht, M.

AU - Müller, A.

AU - Römer, S.

AU - Chlanda, P.

AU - Muñoz-Fontela, C.

AU - Hoenen, T.

AU - Escudero-Pérez, B.

N1 - Funding Information: We thank Gabriele Czerwinski and Silvia Schuparis (Friedrich-Loeffler-Institut) for excellent technical assistance, and Allison Groseth (Friedrich-Loeffler-Institut) for critical reading of the manuscript. We acknowledge access to the infrastructure and support provided by the Infectious Diseases Imaging Platform (IDIP) at the Center for Integrative Infectious Disease Research Heidelberg, the Cryo-EM Network at the Heidelberg University (HD-cryoNet), and IT support at BioQuant Heidelberg. The authors gratefully acknowledge the data storage service SDS@hd supported by the Ministry of Science, Research, and the Arts Baden-Württemberg. Funding Information: This work was supported by the Friedrich-Loeffler-Institut under the grant VISION, by the German Center for Infection Research under the grant TTU 01.702, by a research grant from the Chica and Heinz Schaller Foundation (Schaller Research Group Leader Program), by the German Research Foundation (DFG) under the grant 469065579, and by the German Ministry of Food and Agriculture based on the decision of the Parliament of the Federal Republic of Germany through the Federal Office for Agriculture and Food under the Grant Ebola-Foresight. We thank Gabriele Czerwinski and Silvia Schuparis (Friedrich-Loeffler-Institut) for excellent technical assistance, and Allison Groseth (Friedrich-Loeffler-Institut) for critical reading of the manuscript. We acknowledge access to the infrastructure and support provided by the Infectious Diseases Imaging Platform (IDIP) at the Center for Integrative Infectious Disease Research Heidelberg, the Cryo-EM Network at the Heidelberg University (HD-cryoNet), and IT support at BioQuant Heidelberg. The authors gratefully acknowledge the data storage service SDS@hd supported by the Ministry of Science, Research, and the Arts Baden-Württemberg. Publisher Copyright: © 2023 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group, on behalf of Shanghai Shangyixun Cultural Communication Co., Ltd.

PY - 2023

Y1 - 2023

N2 - Ebolaviruses cause outbreaks of haemorrhagic fever in Central and West Africa. Some members of this genus such as Ebola virus (EBOV) are highly pathogenic, with case fatality rates of up to 90%, whereas others such as Reston virus (RESTV) are apathogenic for humans. Bombali virus (BOMV) is a novel ebolavirus for which complete genome sequences were recently found in free-tailed bats, although no infectious virus could be isolated. Its pathogenic potential for humans is unknown. To address this question, we first determined whether proteins encoded by the available BOMV sequence found in Chaerephon pumilus were functional in in vitro assays. The correction of an apparent sequencing error in the glycoprotein based on these data then allowed us to generate infectious BOMV using reverse genetics and characterize its infection of human cells. Furthermore, we used HLA-A2-transgenic, NOD-scid-IL-2γ receptor-knockout (NSG-A2) mice reconstituted with human haematopoiesis as a model to evaluate the pathogenicity of BOMV in vivo in a human-like immune environment. These data demonstrate that not only does BOMV show a slower growth rate than EBOV in vitro, but it also shows low pathogenicity in humanized mice, comparable to previous studies using RESTV. Taken together, these findings suggest a low pathogenic potential of BOMV for humans.

AB - Ebolaviruses cause outbreaks of haemorrhagic fever in Central and West Africa. Some members of this genus such as Ebola virus (EBOV) are highly pathogenic, with case fatality rates of up to 90%, whereas others such as Reston virus (RESTV) are apathogenic for humans. Bombali virus (BOMV) is a novel ebolavirus for which complete genome sequences were recently found in free-tailed bats, although no infectious virus could be isolated. Its pathogenic potential for humans is unknown. To address this question, we first determined whether proteins encoded by the available BOMV sequence found in Chaerephon pumilus were functional in in vitro assays. The correction of an apparent sequencing error in the glycoprotein based on these data then allowed us to generate infectious BOMV using reverse genetics and characterize its infection of human cells. Furthermore, we used HLA-A2-transgenic, NOD-scid-IL-2γ receptor-knockout (NSG-A2) mice reconstituted with human haematopoiesis as a model to evaluate the pathogenicity of BOMV in vivo in a human-like immune environment. These data demonstrate that not only does BOMV show a slower growth rate than EBOV in vitro, but it also shows low pathogenicity in humanized mice, comparable to previous studies using RESTV. Taken together, these findings suggest a low pathogenic potential of BOMV for humans.

KW - Bombali virus

KW - ebolavirus

KW - filovirus

KW - full-length clone

KW - humanized mice

KW - pathogenic potential

KW - reverse genetics

KW - virulence

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U2 - 10.1080/22221751.2022.2164216

DO - 10.1080/22221751.2022.2164216

M3 - Article

C2 - 36580440

AN - SCOPUS:85146532346

SN - 2222-1751

VL - 12

JO - Emerging Microbes and Infections

JF - Emerging Microbes and Infections

IS - 1

M1 - 2164216

ER -

In vivo characterization of the novel ebolavirus Bombali virus suggests a low pathogenic potential for humans

Abstract

Keywords

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