Two different epidemiological scenarios of border disease in the populations of Pyrenean chamois (Rupicapra p. pyrenaica) after the first disease outbreaks.
(17/23)
Further characterization of border disease virus isolates: evidence for the presence of more than three species within the genus pestivirus.
(19/23)
The molecular analysis of three ovine pestivirus strains revealed the existence of two distinct groups of sheep-derived pestiviruses, namely "true" border disease virus strains (BDV) and bovine viral diarrhea virus (BVDV)-like strains. As an extension of these studies RT-PCR and nucleotide sequencing of the autoprotease (Npro) and nucleocapsid protein (C) encoding regions of additional serologically defined ovine pestivirus strains were performed. A comparison of Npro and C revealed that three ovine isolates belong to the group of true BDV while two were clearly different from these as well as from BVDV and CSFV. The amino acid identity between the latter two ovine strains is 85% for Npro and 92% for C and thus similar to values found within the three pestivirus species defined so far. In order to allow comparison with additional pestiviruses the nucleotide sequences of a part of the 5' noncoding region were determined for the ovine pestivirus strains. The comparative analysis showed that recently described BVDV strains associated with acute lethal infection were very similar to two ovine isolates. The latter represent a fourth group within the genus pestivirus different from the so far defined pestivirus species BVDV, true BDV, and CSFV. The data lead to the question whether the current nomenclature of pestivirus species according to the host origin and the induced diseases is still appropriate. (+info)
Cytopathogenicity of border disease virus is correlated with integration of cellular sequences into the viral genome.
(20/23)
Two border disease virus (BDV) pairs each consisting of cytopathogenic (cp) and non-cp viruses have been analyzed at the molecular level. Within the NS2-3 (p125) encoding region of both cp viruses, insertions of cellular sequences were identified which were absent in the corresponding non-cp isolates. A comparative sequence analysis revealed that within each pair the cp and non-cp viruses are almost identical. This strongly suggests that the cp BDV isolates developed from the non-cp viruses by RNA recombination between the viral genome and cellular sequences. Nonstructural protein NS3 (p80) was demonstrated after infection with both cp BDV strains. In addition, fusion proteins composed of cellular and viral sequences were identified. In contrast, expression of NS3 and the fusion proteins was not found after infection with the respective non-cp counterparts. (+info)
Swine and ruminant pestiviruses require the same cellular factor to enter bovine cells.
(21/23)
Pestiviruses initiate infection of susceptible cells by receptor-mediated endocytosis. Cellular plasma membrane or endosomal molecules involved in translocation of these viruses into the cytosol have not been unequivocally identified. We reported previously that a mutant cell line derived from Madin-Darby bovine kidney (MDBK) cells, termed CRIB-1, was resistant to infection with bovine viral diarrhoea virus. CRIB-1 cells were also resistant to infection with classical swine fever virus and border disease virus of sheep, suggesting that entry of these three different pestiviruses into bovine cells requires a common cell membrane function. The resistance is pestivirus-specific: CRIB-1 cells were as susceptible as the parental MDBK cells to 14 other viruses of cattle and swine belonging to unrelated families. The resistance of CRIB-1 cells to pestivirus infection involves a block in virus entry since transfection of virus RNA or virus inoculation in the presence of PEG resulted in productive infection. Furthermore, quantitative analyses of the outcome of PEG-mediated infection of CRIB-1 cells indicated that the intracellular milieu was fully permissive for pestivirus replication. Binding studies revealed that virus attachment to CRIB-1 cells was not completely abrogated. These results indicate that entry of pestiviruses into MDBK cells depends on a common plasma membrane or endosomal function, which is lacking in CRIB-1 cells. (+info)
Fine mapping of a C-terminal linear epitope highly conserved among the major envelope glycoprotein E2 (gp51 to gp54) of different pestiviruses.
(22/23)
Envelope glycoprotein E2 (gp51 to gp54) is the major neutralizing antigen of pestiviruses, which include classical swine fever virus (CSFV), bovine viral diarrhoea virus (BVDV), and border disease virus (BVD). Previous studies carried out using a panel of monoclonal antibodies raised against CSFV strain Brescia have revealed the existence of four antigenic domains, A to D, of the E2 protein, all of which are located at the N-terminal half of the molecule. Here we report the detailed mapping, using three complementary techniques, of a novel linear epitope located at the C-terminal part of the molecule, which reacted with a monoclonal antibody (4-9D4) as well as polyclonal animal sera. This epitope is highly conserved in the three different members of pestiviruses and hence can be used as a genus-specific diagnosis tool. The observation that this epitope is not accessible on the native virus surface, together with its C-terminal location, supports a recently proposed structural model, indicating that the C-terminal part of E2 is membrane-bound while the N-terminal half of the molecule is exposed on the virus surface. (+info)
Complete genomic sequence of border disease virus, a pestivirus from sheep.
(23/23)
The genus Pestivirus of the family Flaviviridae comprises three established species, namely, bovine viral diarrhea virus (BVDV), classical swine fever virus (CSFV), and border disease virus from sheep (BDV). In this study, we report the first complete nucleotide sequence of BDV, that of strain X818. The genome is 12,333 nucleotides long and contains one long open reading frame encoding 3, 895 amino acids. The 5' noncoding region (NCR) of BDV X818 consists of 372 nucleotides and is thus similar in length to the 5' NCR reported for other pestiviruses. The 3' NCR of X818 is 273 nucleotides long and thereby at least 32 nucleotides longer than the 3' NCR of pestiviruses analyzed thus far. Within the 3' NCR of BDV X818, the sequence motif TATTTATTTA was identified at four locations. The same repeat was found at two or three locations within the 3' NCR of different CSFV isolates but was absent in the 3' NCR of BVDV. Analysis of five additional BDV strains showed that the 3' NCR sequences are highly conserved within this species. Comparison of the deduced amino acid sequence of X818 with the ones of other pestiviruses allowed the prediction of polyprotein cleavage sites which were conserved with regard to the structural proteins. It has been reported for two BVDV strains that cleavage at the nonstructural (NS) protein sites 3/4A, 4A/4B, 4B/5A, and 5A/5B is mediated by the NS3 serine protease and for each site a conserved leucine was found at the P1 position followed by either serine or alanine at P1' (N. Tautz, K. Elbers, D. Stoll, G. Meyers, and H.-J. Thiel, J. Virol. 71:5415-5422, 1997; J. Xu, E. Mendez, P. R. Caron, C. Lin, M. A. Murcko, M. S. Collett, and C. M. Rice, J. Virol. 71:5312-5322). Interestingly, P1' of the predicted NS5A/5B cleavage site of BDV is represented by an asparagine residue. Transient expression studies demonstrated that this unusual NS5A/5B processing site is efficiently cleaved by the NS3 serine protease of BDV. (+info)