Cultured skin fibroblast cells derived from bluetongue virus-inoculated sheep and field-infected cattle are not a source of late and protracted recoverable virus.

A recent hypothesis to explain the recurrence of bluetongue disease after winter seasonal absences of the vector has suggested a role for persistent infection of sheep. This report presents combined independent work from two laboratories investigating the possible recovery of Bluetongue virus (BTV) over a protracted period after infection of both sheep and cattle. Prior to infection with either cell-culture-adapted or non-culture-adapted BTV, sheep were subjected to a preliminary exposure to Culicoides sp. insects, which reportedly facilitates recovery of virus from infected sheep several months post-infection (p.i.). A series of skin biopsies at different intervals p.i. was used to establish skin fibroblast (SF) cultures from which attempts were made to detect virus by isolation and by molecular and immunological methods. Also examined was the effect on virus recovery of additional exposure to Culicoides sp. prior to skin biopsy during the post-inoculation period. A herd of cattle sentinels for surveillance of natural BTV infection in northern Australia was monitored prospectively for seroconversion. Evidence of infection initiated attempted virus recovery by establishing SF cultures. It was found that in both cattle and sheep there was not a protracted period over which BTV could be recovered from SF cultures. The data do not support a general hypothesis that BTV persists in either sheep or cattle.

Expression of the major inner capsid protein of the epizootic haemorrhagic disease virus in baculovirus and potential diagnostic use.

The RNA 7 encoding the major capsid protein (VP7) of epizootic haemorrhagic disease virus (EHDV), Australian serotype 2 (strain CS439), was cloned and the complete nucleotide sequence was determined. The coding region contained 1047 nucleotides (nt) capable of encoding a predicted 349 amino acid (aa) polypeptide with a calculated molecular size of 38.087 kDa. When the VP7 gene was expressed in bacterial or yeast expression systems, the expression product showed weak or no reactivity with polyclonal antibodies to EHDV. Therefore, the expression of the VP7 gene in baculovirus was pursued. The expressed EHDV VP7 was similar in antigenicity to that of the native virus as revealed by its reactivity in ELISA with monoclonal antibody (MAb) specific to EHDV. Preliminary ELISA results indicated that the recombinant protein binds to EHDV antibodies in serum and that these antibodies block the binding of EHDV-specific MAb. The availability of a reliable EHDV recombinant VP7 could enhance our existing assay for detection of EHDV-specific antibodies.