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Machupo Virus with Mutations in the Transmembrane Domain and Glycosylation Sites of the Glycoprotein Is Attenuated and Immunogenic in Animal Models of Bolivian Hemorrhagic Fever

Emily Mantlo, Junki Maruyama, John T. Manning, Timothy G. Wanninger, Cheng Huang, Jeanon N. Smith, Michael Patterson, Slobodan Paessler, Takaaki Koma

2022Journal of Virology12 citationsDOIOpen Access PDF

Abstract

For arenaviruses, the only vaccine available is the live attenuated Candid#1 vaccine, a JUNV vaccine approved in Argentina. We and others have found that the glycans on GPC and the F427 residue in the GPC TMD are important for virulence of JUNV. Nevertheless, mutating either of them is not sufficient for full and stable attenuation of JUNV. Using reverse genetics, we disrupted specific glycosylation sites on MACV GPC and also introduced the corresponding F438I substitution in the GPC TMD. This MACV mutant is fully attenuated in two animal models and protects animals from lethal infection. Thus, our studies highlight the feasibility of rational attenuation of highly pathogenic arenaviruses for vaccine development. Another important finding from this study is that the F438I substitution in GPC TMD could substantially affect MACV replication in neurons. Future studies are warranted to elucidate the underlying mechanism and the implication of this mutation in arenavirus neural tropism.

Topics & Concepts

BiologyVirologyVirulenceGlycoproteinAttenuated vaccineGlycanGlycosylationJunin virusTransmembrane domainTransmembrane proteinMicrobiologyImmunologyGeneticsGeneAntigenLymphocytic choriomeningitisReceptorCD8Viral Infections and Outbreaks ResearchViral Infections and VectorsViral gastroenteritis research and epidemiology
Machupo Virus with Mutations in the Transmembrane Domain and Glycosylation Sites of the Glycoprotein Is Attenuated and Immunogenic in Animal Models of Bolivian Hemorrhagic Fever | Litcius