Inhibition of human cytomegalovirus immediate-early gene expression by cyclin A2-dependent kinase activity.

Human cytomegalovirus (HCMV) starts its lytic replication cycle only in the G(0)/G(1) phase of the cell division cycle. S/G(2) cells can be infected but block the onset of immediate-early (IE) gene expression. This block can be overcome by inhibition of cyclin-dependent kinases (CDKs), suggesting that cyclin A2, the only cyclin with an S/G(2)-specific activity profile, may act as a negative regulator of viral gene expression. To directly test this hypothesis, we generated derivatives of an HCMV-permissive glioblastoma cell line that express cyclin A2 in a constitutive, cell cycle-independent manner. We demonstrate that even moderate cyclin A2 overexpression in G(1) was sufficient to severely compromise the HCMV replicative cycle after high-multiplicity infection. This negative effect was composed of a strong but transient inhibition of IE gene transcription and a more sustained alteration of IE mRNA processing, resulting in reduced levels of UL37 and IE2, an essential transactivator of viral early gene expression. Consistently, cyclin A2-overexpressing cells showed a strong delay of viral early and late gene expression, as well as virus reproduction. All effects were dependent on CDK activity, as a cyclin A2 mutant deficient in CDK binding was unable to interfere with the HCMV infectious cycle. Interestingly, murine CMV, whose IE gene expression is known to be cell cycle independent, is not affected by cyclin A2. Instead, it upregulates cyclin A2-associated kinase activity upon infection. Understanding the mechanisms behind the HCMV-specific action of cyclin A2-CDK might reveal new targets for antiviral strategies.