Pseudorabies virus US3-mediated inhibition of apoptosis does not affect infectious virus production.

Preventing apoptosis during the early stages of infection of a host cell is generally thought to result in a higher yield of progeny virus. The US3 protein kinase of pseudorabies virus (PRV) and herpes simplex virus (HSV) is able to protect infected cells from apoptosis, which may be one of the reasons why both US3null PRV and US3null HSV replicate to lower virus titres in several cell types. However, such potential correlation between the higher amount of apoptosis in US3null virus-infected cells and the lower virus titres of US3null virus has not been investigated directly. In the current study, we found that a broad-spectrum caspase-inhibitor efficiently inhibited apoptosis in swine testicle and human laryngeal epidermoid carcinoma cells infected with US3null or wild-type (WT) PRV. However, inhibition of apoptosis did not affect US3null or WT PRV extracellular or cell-associated virus titres, nor did it restore the small plaque phenotype of US3null PRV.

Pseudorabies virus US3- and UL49.5-dependent and -independent downregulation of MHC I cell surface expression in different cell types.

Many herpesviruses interfere with the MHC I antigen-processing pathway in order to limit elimination by cytotoxic T-lymphocytes. For varicelloviruses, the largest subgroup of alphaherpesviruses, two viral proteins have been reported to downregulate MHC I cell surface expression: UL49.5 for BoHV-1, PRV, and EHV-1 and the US3 orthologue for VZV. Here, we report that PRV reduces MHC I cell surface expression during infection in a cell-type-dependent manner. In ST cells, a kinase-active US3 was necessary but not sufficient to downregulate cell surface MHC I expression, whereas US3 was not required in PK-15 cells and porcine alveolar macrophages (PAM). MHC I downregulation was not (PAM, ST) or only partly (PK-15) dependent on UL49.5. In conclusion, we show that the mechanism(s) of PRV-mediated cell surface MHC I downregulation are cell-type-dependent, with variable roles for US3, UL49.5, and additional, yet unidentified early viral proteins.