The virion host shutoff (vhs) protein of alphaherpesviruses causes a rapid shutoff of host cell protein synthesis. We constructed a bovine herpesvirus 1 (BHV1) deletion mutant in which the putative vhs gene, UL41, has been disrupted. Whereas protein synthesis is inhibited within 3 h after infection with wild-type BHV1, no inhibition was observed after infection with the BHV1
In a bovine herpesvirus 1 (BHV1) vaccine strain, a spontaneous BHV1 mutant (Za) was found that arose from a recombination between two isomeric forms of the BHV1 genome. In this Za mutant one end of the U(S) region, containing part of the US1.5 gene, was found duplicated in an inverted orientation at the other end of the U(S) region. Concurrently, a 2.7 kb deletion was found in Za that encompasses both the US8 (gE) and US9 gene. Analysis of the in vitro growth properties of a genetically modified BHV1gE(-) mutant showed that at 11 hours post infection BHV1gE(-) viruses were secreted ten times more efficiently than wild type virus. Using this observation we developed a protocol to enrich for spontaneous gE deletion mutants in a BHV1 field isolate and found another mutant (Rof3) with similar properties as the Za mutant. Rof3 has a duplication/inversion of the US1.5 gene and part of the US2 gene and a simultaneous 3.5 kb deletion that encompasses the US7 (gI), US8 (gE) and US9 genes. The nucleotide sequences of the recombination points of both recombinants were determined and compared. No obvious sequence similarities were found, suggesting that non-homologous recombination events led to the observed recombinations. The implications for the use of BHV1 gE deletion mutants as marker or diva vaccines are discussed.
Thirty-one outbreaks of Marek's disease (MD) were reported in the Netherlands and retrospectively analyzed. The outbreaks occurred mostly in vaccinated commercial layer and a few breeder flocks of several breeds; however, the cause of the outbreaks could not be established. Therefore, in a prospective study, the occurrence of true vaccine failures was assessed onfive hatcheries. The plaque-forming units (PFU) of MD vaccine per chicken dose were determined through in vitro assays on vacine ampoules (2 to 5 per hatchery) and samples of reconstituted vaccine (approximately 22 per hatchery). All forty reconstituted vaccine samples of hatcheries 1 and 4 showed PFU doses <10(3). In hatchery 4, 14 samples showed extreme low PFU (< or = 10 PFU). In hatcheries 2, 3, and 5, the numbers of MD vaccine suspensions with a titer > or = 10(3) PFU, which is the standard required, were 1 (5%), 17 (77%), and 3 (14%), respectively. Some vaccine ampoules showed < 10(3) PFU per chicken dose. This study shows the usefulness to assess the PFU per chicken dose of reconstituted MD vaccine and vaccine ampoules to unravel true vaccine failures, which could result in disease outbreaks in the field.
Glycoprotein E (gE) of bovine herpesvirus 1 (BHV1) forms a complex with glycoprotein I (gI) and plays an important role in cell-to-cell spread mechanisms of the virus, but is not essential for propagation of the virus. To study the antigenic variability of BHV1 glycoprotein E, a set of six well characterised monoclonal antibodies (MAbs) was established using BHV1 gE and gI deletion mutants, eukaryotically expressed gE and gI and pepscan analysis. Two of these MAbs reacted with a linear gE epitope (MAbs 3 and 52), two reacted with a more conformation dependent gE epitope (MAbs 61 and 81) and two reacted with epitopes formed by a complex formed between gE and glycoprotein I (MAbs 67 and 75). With these six MAbs the gE expression of 222 BHV1 isolates and 11 BHV1 modified-live vaccine strains was studied in vitro, using an immunoperoxidase monolayer assay. All 222 BHV1 isolates and 11 vaccine strains were found to react with MAbs 61, 81 and 75. Three of the 222 isolates failed to react with MAb 67 and two of the vaccines reacted very weakly with MAbs 3 and 52. Analysis of the gE genes of these five aberrant isolates and the gE glycoproteins they expressed, did not show obvious size differences compared to wild-type BHV1. We conclude that the tested gE epitopes are highly conserved, including the epitopes formed by the gI/gE complex.
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