Functionality of Chimeric E2 Glycoproteins of BVDV and CSFV in Virus Replication
H.G.P. van Gennip, G.K.W Miedema, R.J.M. Moormann and P.A van Rijn
Central Veterinary Institute of (CVI) of Wageningen UR, P.O. Box 2004, 8203 AA Lelystad, The Netherlands.
Abstract
An intriguing difference between the E2 glycoprotein of CSFV and the other groups of pestiviruses (nonCSFV) is a lack of two cysteine residues on positions cysteine 751 and 798. Other groups of pestivirus are not restricted to one species as swine, whereas CSFV is restricted to swine and wild boar. We constructed chimeric CSFV/BVDV E2 genes based on a 2D model of E2 proposed by van Rijn et al. (van Rijn et al. 1994, J Virol 68, 3934–42) and confirmed their expression by immunostaining of plasmid-transfected SK6 cells. No equivalents for the antigenic units B/C and A were found on E2 of BVDVII. This indicates major structural differences in E2. However, the immunodominant BVDVII domain A, containing epitopes with essential amino acids between position 760–764, showed to be dependent on the presence of the region defined by amino acids 684 to 796. As for the A domain of CSFV, the BVDVII A-like domain seemed to function as a separate unit. These combined domains in E2 proved to be the only combination which was functional in viral background of CSFV C-strain. The fitness of this virus (vfl c36BVDVII 684–796) seemed to be reduced compared to vfl c9 (with the complete antigenic region of BVDVII).
Readers of this also read:
- KSHV Latency in Transformed B-cells: The Role of LANA1 as a Therapeutic Target
- Identification of Rotavirus VP6-Specific CD4+ T Cell Epitopes in a G1P[8] Human Rotavirus-Infected Rhesus Macaque
- HIV-1 Transmission, Replication Fitness and Disease Progression
- An Evidence-Based Approach to Plum Pox Virus Detection by DASI-ELISA and RT-PCR in Dormant Period
- Antibiotic-Mediated Inhibition of Porcine Reproductive and Respiratory Syndrome Virus (PRRSV) Infection: A Novel Quinolone Function Which Potentiates the Antiviral Cytokine Response in MARC-145 Cells and Pig Macrophages