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Role of African Swine Fever Virus Proteins EP153R and EP402R in Reducing Viral Persistence in Blood and Virulence in Pigs Infected with BeninΔDP148R

Vlad Petrovan, Anusyah Rathakrishnan, Muneeb Islam, Lynnette C. Goatley, Katy Moffat, Pedro J. Sanchez-Cordon, Ana L. Reis, Linda K. Dixon

2021Journal of Virology53 citationsDOIOpen Access PDF

Abstract

African swine fever virus (ASFV) causes a disease of domestic pigs and wild boar which results in death of almost all infected animals. The disease has a high economic impact, and no vaccine is available. We investigated the role of two ASFV proteins, called EP402R and EP153R, in determining the levels and length of time virus persists in blood from infected pigs. EP402R causes ASFV particles and infected cells to bind to red blood cells. Deletion of the EP402R gene dramatically reduced virus persistence in blood but did not reduce the level of virus. Deletion of the EP153R gene alone did not reduce the period or level of virus persistence in blood. However, deleting both EP153R and EP402R resulted in undetectable levels of virus in blood and no clinical signs showing that the proteins act synergistically. Importantly, the infected pigs were protected following infection with the wild-type virus that kills pigs.

Topics & Concepts

African swine fever virusBiologyVirologyVirusViremiaVirulenceGenotypeAttenuated vaccineGenomeViral sheddingGeneViral replicationImmunizationPseudorabiesPersistence (discontinuity)DiseaseClassical swine feverPlasmidImmunologyPathogenAnimal Disease Management and EpidemiologyVector-Borne Animal DiseasesMicrobial infections and disease research
Role of African Swine Fever Virus Proteins EP153R and EP402R in Reducing Viral Persistence in Blood and Virulence in Pigs Infected with BeninΔDP148R | Litcius