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Changes associated with Ebola virus adaptation to novel species

Changes associated with Ebola virus adaptation to novel species
Changes associated with Ebola virus adaptation to novel species
Motivation: Ebola viruses are not pathogenic but can be adapted to replicate and cause disease in rodents. Here, we used a structural bioinformatics approach to analyze the mutations associated with Ebola virus adaptation to rodents to elucidate the determinants of host-specific Ebola virus pathogenicity.
Results: We identified 33 different mutations associated with Ebola virus adaptation to rodents in the proteins GP, NP, L, VP24 and VP35. Only VP24, GP and NP were consistently found mutated in rodent-adapted Ebola virus strains. Fewer than five mutations in these genes seem to be required for the adaptation of Ebola viruses to a new species. The role of mutations in GP and NP is not clear. However, three VP24 mutations located in the protein interface with karyopherin a5 may enable VP24 to inhibit karyopherins and subsequently the host interferon response. Three further VP24 mutations change hydrogen bonding or cause conformational changes. Hence, there is evidence that few mutations including crucial mutations in VP24 enable Ebola virus adaptation to new hosts. Since Reston virus, the only non-human pathogenic Ebolavirus species circulates in pigs in Asia, this raises concerns that few mutations may result in novel human pathogenic Ebolaviruses.
1367-4803
1911-1915
Pappalardo, Morena
6dac5618-1614-44c2-9558-3b0652a85aeb
Reddin, Ian G.
b5f50ec1-83fb-4f15-a41f-f9c544d7ccc0
Cantoni, DIego
9f16037e-bcbf-4341-a442-74e84ebfc997
Rossman, Jeremy S.
4f593328-02ce-4c2f-8650-2b890436cb51
Michaelis, Martin
be3faca6-397a-40e1-be6e-3a8c89eeb341
Wass, Mark N.
58e102d5-8520-4372-a826-d3aa6f14d1f1
Pappalardo, Morena
6dac5618-1614-44c2-9558-3b0652a85aeb
Reddin, Ian G.
b5f50ec1-83fb-4f15-a41f-f9c544d7ccc0
Cantoni, DIego
9f16037e-bcbf-4341-a442-74e84ebfc997
Rossman, Jeremy S.
4f593328-02ce-4c2f-8650-2b890436cb51
Michaelis, Martin
be3faca6-397a-40e1-be6e-3a8c89eeb341
Wass, Mark N.
58e102d5-8520-4372-a826-d3aa6f14d1f1

Pappalardo, Morena, Reddin, Ian G., Cantoni, DIego, Rossman, Jeremy S., Michaelis, Martin and Wass, Mark N. (2017) Changes associated with Ebola virus adaptation to novel species. Bioinformatics, 33 (13), 1911-1915. (doi:10.1093/bioinformatics/btx065).

Record type: Article

Abstract

Motivation: Ebola viruses are not pathogenic but can be adapted to replicate and cause disease in rodents. Here, we used a structural bioinformatics approach to analyze the mutations associated with Ebola virus adaptation to rodents to elucidate the determinants of host-specific Ebola virus pathogenicity.
Results: We identified 33 different mutations associated with Ebola virus adaptation to rodents in the proteins GP, NP, L, VP24 and VP35. Only VP24, GP and NP were consistently found mutated in rodent-adapted Ebola virus strains. Fewer than five mutations in these genes seem to be required for the adaptation of Ebola viruses to a new species. The role of mutations in GP and NP is not clear. However, three VP24 mutations located in the protein interface with karyopherin a5 may enable VP24 to inhibit karyopherins and subsequently the host interferon response. Three further VP24 mutations change hydrogen bonding or cause conformational changes. Hence, there is evidence that few mutations including crucial mutations in VP24 enable Ebola virus adaptation to new hosts. Since Reston virus, the only non-human pathogenic Ebolavirus species circulates in pigs in Asia, this raises concerns that few mutations may result in novel human pathogenic Ebolaviruses.

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More information

Accepted/In Press date: 12 February 2017
Published date: 1 July 2017
Additional Information: Publisher Copyright: © 2017 The Author.

Identifiers

Local EPrints ID: 475455
URI: http://eprints.soton.ac.uk/id/eprint/475455
DOI: doi:10.1093/bioinformatics/btx065
ISSN: 1367-4803
PURE UUID: 1172736c-2f2d-43e1-86d0-b5dee557c20e
ORCID for Ian G. Reddin: ORCID iD orcid.org/0000-0001-5478-7855

Catalogue record

Date deposited: 20 Mar 2023 17:33
Last modified: 17 Mar 2024 04:09

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Contributors

Author: Morena Pappalardo
Author: Ian G. Reddin ORCID iD
Author: DIego Cantoni
Author: Jeremy S. Rossman
Author: Martin Michaelis
Author: Mark N. Wass

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