The Human Cytomegalovirus Gene UL79 Is Required for the Accumulation of Late Viral Transcripts

摘要

In this study, we adopted a conditional protein genetic approach to characterize the role of the human cytomegalovirus (HCMV) gene UL79 during virus infection. We constructed ADddUL79, a recombinant HCMV in which the annotated UL79 open reading frame (ORF) was tagged with the destabilization domain of a highly unstable variant of the human FKBP12 protein (ddFKBP). The ddFKBP domain targets the tagged protein for rapid proteasomal degradation, but the synthetic ligand Shield-1 can stabilize ddFKBP, allowing accumulation of the tagged protein. ADddUL79 failed to replicate without Shield-1, but it grew at wild-type levels with Shield-1 or in human foreskin fibroblasts overexpressing hemagglutinin (HA)-tagged UL79 (HF-UL79HA cells), indicating an essential role of UL79 and the effectiveness of this approach. Without Shield-1, representative immediate-early and early viral proteins as well as viral DNA accumulated normally, but late transcripts and proteins were markedly reduced. UL79 was transcribed with early-late kinetics, which was also regulated via a positive-feedback loop. Using HF-UL79HA cells, we found that the UL79 protein localized to viral replication compartments during HCMV infection. Finally, we created a second UL79 mutant virus (ADinUL79stop) in which the UL79 ORF was disrupted by a stop codon mutation and found that ADinUL79stop phenocopied ADddUL79 under the destabilizing condition. Taking these results together, we conclude that UL79 acts after viral DNA replication to promote the accumulation of late viral transcripts. Importantly, the comparative analysis of ADddUL79 and ADinUL79stop viruses provide additional proof for the power of the protein stability-based conditional approach to dissect the role of viral factors in HCMV biology.