Evidence for the presence of bluetongue virus in Kosovo between 2001 and 2004

In 2001, clinical cases of bluetongue were observed in Kosovo, and in that year and in 2003 and 2004, serum samples were collected from cattle and small ruminants and tested for antibodies to bluetongue virus. The results provide evidence that bluetongue virus was not present in Kosovo before the summer of 2001, but that the virus circulated subclinically among the cattle and sheep populations of Kosovo in 2002, 2003 and 2004.

Antigenic relationships between bluetongue virus serotypes as defined by monoclonal antibodies

Panels of monoclonal antibodies (MAbs) were generated to individual proteins of an Australian isolate of bluetongue virus (BTV) serotype 1 (VP2, VPS, VP5, VP6, NS1 and NS2). The number of individual epitopes and antigenic regions each panel defined were then determined. Relative epitope conservation levels amongst heterologous serotypes of BTV from three geographic regions (Australia, the United States and South Africa) were then investigated for each protein through the development of a quantitative binding assay. Epitopes on VP2 displayed the most and VP7 and NS1 epitopes the least, variation in epitope conservation across the BTV serogroup. Epitopes on VPS and VP6 showed moderate to high levels of variation and NS2 epitopes displayed surprisingly high levels of variation. A comparison of epitope reactivity on released and cytoplasmic lysate antigen preparations revealed the expression of several epitopes on VP2 and VP7 are blocked through the conformational changes induced by the incorporation of each protein into the virus particle* This suggested some form of environmental pressure/s were responsible for the selection of specific protein conformations. For VP7, the patterns of epitope expression on the virus displayed some relationship to the geographic origin of BTV isolates and therefore indicated the detection of such epitopes might assist in the topotyping of unknown isolates. Binding and neutralization studies applied to the reaction of VP2-specific MAbs with natural and experimentally selected BTV-1 variants showed at least seven neutralization epitopes exist within a single domain. However, only one of these appeared crucial to serotype determination. In addition, escape from virus neutralization was shown to involve the re-conformation of previously neutralizing epitopes to a non-neutralizing orientation which did not necessarily compromise the binding properties of the epitope. The simultaneous reaction of certain neutralization-resistant variants and heterologous serotypes with several MAbs specific for such epitopes, resulted in low level virus neutralization. This may explain the phenomenon of heterotypic immune responses frequently observed in natural hosts.