The deletion of the EP402R and MGF505/360 genes attenuates a genotype I/II recombinant ASFV but fails to confer complete protection against homologous or genotype II challenge in pigs.
Yao Li, Yingnan Liu, Zhuyun Sun, Zhenhua Xie, Chuanwen Tian, Rongrong Wang, Jun Gao, Maomao Wang, Jingyi Liu, Heng Wang, Guihong Zhang, Jie Li, Dongdong Di, Lang Gong, Hongjun Chen
Abstract
Open AccessAfrican swine fever (ASF), a pig disease caused by ASFV, is highly contagious and often lethal. The recent emergence of novel ASFV with I/II genomic recombination has posed significant challenges to global ASF prevention and control. In this study, we used the Chinese I/II genomic recombinant virulent strain ASFV-HN10005 (ASFV-HN) to construct two gene-deleted viruses. ASFV-HNΔMGF lacks the MGF505-1R-MGF360-14L genes cluster (including MGF505-1R, -2R, -3R, and MGF360-12L, -13L, -14L), and ASFV-HNΔCD2vΔMGF lacks both EP402R and the MGF505-1R-MGF360-14L genes cluster. ASFV-HNΔMGF still showed pathogenicity in domestic pigs, while ASFV-HNΔCD2vΔMGF showed markedly attenuated virulence, with all inoculated pigs surviving. However, these pigs did not gain complete protection against subsequent lethal challenge from the parental ASFV-HN strain or the virulent II-type strain ASFV-GZ. This implies that I/II genomic recombinant ASFV may have unique biological traits and immune evasion mechanisms. Our findings indicate the need to reassess current ASFV control strategies and provide a basis for future vaccine target selection.