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African Swine Fever Virus MGF505-7R Interacts with Interferon Regulatory Factor 9 to Evade the Type I Interferon Signaling Pathway and Promote Viral Replication

Zhao Huang, Haoxuan Cao, Fanliang Zeng, Sizhan Lin, Jianglin Chen, Yi Luo, Jianyi You, Cuiying Kong, Zhanzhuo Mai, Jie Deng, Weiting Guo, Xiongnan Chen, Heng Wang, Pei Zhou, Guihong Zhang, Lang Gong

2023Journal of Virology37 citationsDOIOpen Access PDF

Abstract

ASF, caused by ASFV, is currently prevalent in Eurasia, with mortality rates reaching 100% in pigs. At present, there are no safe or effective vaccines against ASFV. In this study, we found that the ASFV protein MGF505-7R hinders IFN-β signaling by interacting with IRF9 and inhibiting the formation of ISGF3 heterotrimers. Of note, we demonstrated that MGF505-7R plays a role in the immune evasion of ASFV in infected hosts and that recombinant viruses alleviated the effect on type I IFN (IFN-I) signaling and exhibited increased susceptibility to IFN-β. This study provides a theoretical basis for developing vaccines against ASFV using strains with MGF505-7R gene deletions.

Topics & Concepts

STAT1BiologyInterferonSTAT2VirologyIRF3African swine fever virusInnate immune systemInterferon regulatory factorsPorcine circovirusSignal transductionSTAT proteinJanus kinaseTranscription factorVirusCell biologyGeneImmune systemSTAT3ImmunologyGeneticsAnimal Disease Management and EpidemiologyVector-Borne Animal DiseasesViral Infections and Vectors