Role of the conserved E2 residue G259 in classical swine fever virus production and replication

•The recombinant chimeric CSFV/bE2 harboring heterologous BVDV E2 was generated by genetic approaches and serial passages of transfected cells.•The novel functional residues at positions 259 and 111 in CSFV E2 was identified.•The conserved residue G259 played a critical role in CSFV production and replication.•The residues G259 and V111 in the E2 modulated synergistically infectious CSFV production and replication. The E2 glycoprotein of classical swine fever virus (CSFV) plays multiple roles in the viral life cycle. The chimeric live attenuated C strain with the E2 substitution of bovine viral diarrhea virus (BVDV) is a promising marker vaccine candidate. In this study, the recombinant chimeric CSFV/bE2 cDNA clone harboring heterologous E2 (bE2) of BVDV was constructed by genetic approaches. Recombinant infectious virus rCSFV/bE2 (P11) was recovered by 11 serial passages of transfected PK15 cells. Viral genome sequencing showed that a glutamic acid to glycine mutation (E260G) at position 260 of the bE2 was observed in rCSFV/bE2 P11. Alignment of amino acid sequences displayed that the glycine was one of three conserved residues in pestivirus E2. When the glutamic acid to glycine substitution (E260G) was introduced into chimeric CSFV/bE2 cDNA clone, the high-titer infectious rCSFV/bE2E260G was rescued. The glycine to glutamic acid substitution at corresponding position in CSFV E2 resulted in significantly decreased rCSFV/E2G259E production. We further identified that the conserved E2 residue G259 played a critical role in the release and binding activity of CSFV and that the E2 residues G259 and V111 modulated synergistically infectious virus production and replication.