Virus contamination of bovine testis cell cultures

Molecular biology of bovine viral diarrhea virus and its interactions with the host

The contributions of pestivirus molecular biology research to our understanding of Bovine Viral Diarrhea Virus (BVDV) biology and disease have been remarkable. Completion of nucleotide sequence information for genomes of NCP and CP-BVDV isolates was an important milestone. Subsequent work on the protein map of BVDV and polyprotein processing pathways paved the way for the interpretation of many other virologic and immunologic studies. Discovery of a correlation between genotype II and virulence (hemorrhagic syndrome) will help to clarify previously controversial data and to improve disease control. Description of multiple pathways of p80 expression in CP-BVDV offered insight into the pathogenesis of mucosal disease. Identification of gp53/ E2 as the target of neutralizing antibodies and source of antigenic hypervariability helped us to understand immunity to BVDV. Collectively, the advances described contribute to the implementation of improved diagnostic and control strategies to reduce losses inflicted by the bovine pestivirus.

Epidemiological studies of bovine spumavirus

Bovine spumavirus (BSV) infection is shown to be endemic in some herds in north Queensland. The virus was readily isolated from leucocytes of the majority of mature cattle which were BSV antibody positive (BSV reactors) in the agar gel precipitin test (AGPT). Calves born to dams which were BSV reactors showed no BSV antibody or circulatory leucocyte-associated BSV (CLAB) at birth, but became BSV reactors following ingestion of colostrum, and maintained such evidence of passive immunity until 3-5 months of age. Experimental infection of dams with BSV at 5-7 months of gestation did not cause foetal infection. In groups of young animals at pasture, segregated by age and sex, no evidence of BSV infection occurred, following loss of passive immunity, until 18-24 months of age. At this time, occasional members of some groups (both male and female) became BSV reactors and showed CLAB. At approximately 24 months old, following mixing in groups with older cows, and single-sire mating, 34% of heifers became BSV reactors within 10 weeks. A herd survey indicated 85% of 2-3-year-old cows to be BSV reactors; thereafter, the percentage of reactors declined gradually with increasing age. Using BSV grown in cell culture, transmission of infection by throat spray was the most successful route, 7 of 7 (100%) of susceptible cattle becoming BSV reactors within 8 weeks of spraying. Using the intravenous route, only 2 of 5 (40%) susceptible cattle became BSV reactors, and swabbing of cell culture virus into the prepuce or vagina did not result in infection of 4 BSV-susceptible animals.(ABSTRACT TRUNCATED AT 250 WORDS)