Glycoprotein N-linked glycans play a critical role in arenavirus pathogenicity

Several arenaviruses cause hemorrhagic fevers in humans with high case fatality rates. A vaccine named Candid#1 is available only against Junin virus (JUNV) in Argentina. Specific N-linked glycans on the arenavirus surface glycoprotein (GP) mask important epitopes and help the virus evade antibody r...

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Bibliographic Details
Published in:PLoS pathogens 2021-03, Vol.17 (3), p.e1009356-e1009356
Main Authors: Koma, Takaaki, Huang, Cheng, Coscia, Adrian, Hallam, Steven, Manning, John T, Maruyama, Junki, Walker, Aida G, Miller, Milagros, Smith, Jeanon N, Patterson, Michael, Abraham, Jonathan, Paessler, Slobodan
Format: Article
Language:English
Subjects:
Acidification
Antibodies
Arenaviruses
Biology and Life Sciences
Bioterrorism
Cell membranes
Endosomes
Fever
Genomes
Glycoproteins
Glycosylation
Health aspects
Health risks
Infections
Interferon
Medicine and Health Sciences
Mutation
N-glycans
Pathogenicity
Pathogens
Peptides
Physiological aspects
Polysaccharides
Post-translational modification
Research and Analysis Methods
RNA polymerase
Vaccines
Virulence
Viruses
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Summary:Several arenaviruses cause hemorrhagic fevers in humans with high case fatality rates. A vaccine named Candid#1 is available only against Junin virus (JUNV) in Argentina. Specific N-linked glycans on the arenavirus surface glycoprotein (GP) mask important epitopes and help the virus evade antibody responses. However the role of GPC glycans in arenavirus pathogenicity is largely unclear. In a lethal animal model of hemorrhagic fever-causing Machupo virus (MACV) infection, we found that a chimeric MACV with the ectodomain of GPC from Candid#1 vaccine was partially attenuated. Interestingly, mutations resulting in acquisition of N-linked glycans at GPC N83 and N166 frequently occurred in late stages of the infection. These glycosylation sites are conserved in the GPC of wild-type MACV, indicating that this is a phenotypic reversion for the chimeric MACV to gain those glycans crucial for infection in vivo. Further studies indicated that the GPC mutant viruses with additional glycans became more resistant to neutralizing antibodies and more virulent in animals. On the other hand, disruption of these glycosylation sites on wild-type MACV GPC rendered the virus substantially attenuated in vivo and also more susceptible to antibody neutralization, while loss of these glycans did not affect virus growth in cultured cells. We also found that MACV lacking specific GPC glycans elicited higher levels of neutralizing antibodies against wild-type MACV. Our findings revealed the critical role of specific glycans on GPC in arenavirus pathogenicity and have important implications for rational design of vaccines against this group of hemorrhagic fever-causing viruses.
ISSN:1553-7374
1553-7366
1553-7374
DOI:10.1371/journal.ppat.1009356