Integration of bovine herpesvirus 4 genome into cultured persistently infected host cell genome

Persistent infection of macrophages with bovine herpesvirus 4 (BoHV-4) has been proposed to play a secondary causal role, along with bacterial infection, in bovine post-partum metritis. Mechanisms of maintenance of BoHV-4 persistent infection are not understood. We previously generated in vitro models of BoHV-4 persistent infection in human rhadomyosarcoma and bovine macrophage cell lines by drug selection of cells infected with BoHV-4 carrying a drug-resistance marker, and demonstrated circular episomal BoHV-4 genomes. In the present study, we used fluorescent in situ hybridization (FISH) to demonstrate BoHV-4 genomes also integrated into the genomes of these persistently infected cells

Efficient heterologous antigen gene delivery and expression by a replication-attenuated BoHV-4-based vaccine vector

Bovine Herpesvirus 4 (BoHV-4) is a gammaherpesvirus belonging to the Rhadinovirus genus and due to its biological characteristics has been proposed as a vaccine vector for veterinary vaccines. Because viral vector-associated risk is a major concern for viral vector applications, attenuation is a desirable feature. Therefore, efforts are directed toward the development of highly attenuated viral vectors. BoHV-4 naturally exhibits limited pathogenicity and a further attenuation, in terms of replication, was obtained by disrupting the late gene encoding the 1.7-kb polyadenylated RNA (L1.7). An L1.7 deleted mutant BoHV-4 (BoHV-4-A-KanaGalKΔL1.7), as well as its revertant (BoHV-4-A-Rev), was generated by homologous recombination from the genome of a BoHV-4 isolate (BoHV-4-A) cloned as a bacterial artificial chromosome (BAC). BoHV-4-A-KanaGalKΔL1.7 showed attenuation in terms of competence to reconstitute infectious virus, viral replication, and plaque size when compared to BoHV-4-A, BoHV-4-A-Rev, and BoHV-4-A-KanaGalKΔTK, a recombinant control virus where the KanaGalK selectable marker was inserted into the thymidine kinase open reading frame. The capability of BoHV-4-A-KanaGalKΔL1.7 to deliver and express a heterologous antigen was investigated by replacing the KanaGalK cassette with a vesicular stomatitis virus glycoprotein (VSVg) expression cassette to generate BoHV-4-A-EF1αVSVgΔL1.7. BoHV-4-A-EF1αVSVgΔL1.7 infected cells robustly expressed VSVg, thus confirming that the replication deficiency resulting from L1.7 disruption did not prevent heterologous gene delivery and expression. Although further work is needed to identify the specific function of the BoHV-4 L1.7 gene, the L1.7 gene may represent an ideal targeting locus for the integration of a heterologous antigen expression cassette, resulting in attenuation of the viral vector