Abstract
The latent-to-lytic switch of Epstein-Barr virus (EBV) is mediated by the immediate early protein BZLF1 (Z). However, the cellular factors regulating this process remain incompletely characterized. In this report, we show that the B-cell-specific transcription factor Pax5 helps to promote viral latency in B cells by blocking Z function. Although Z was previously shown to directly interact with Pax5 and inhibit its activity, the effect of Pax5 on Z function has not been investigated. Here, we demonstrate that Pax5 inhibits Z-mediated lytic viral gene expression and the release of infectious viral particles in latently infected epithelial cell lines. Conversely, we found that shRNA-mediated knockdown of endogenous Pax5 in a Burkitt lymphoma B-cell line leads to viral reactivation. Furthermore, we show that Pax5 reduces Z activation of early lytic viral promoters in reporter gene assays and inhibits Z binding to lytic viral promoters in vivo. We confirm that Pax5 and Z directly interact and show that this interaction requires the carboxy-terminal DNA-binding/dimerization domain of Z and the amino-terminal DNA-binding domain of Pax5. A Pax5 DNA-binding mutant (V26G/P80R) that interacts with Z retains the ability to inhibit Z function, whereas a Pax5 mutant (Δ106-110) that is deficient for interaction with Z does not inhibit Z-mediated lytic viral reactivation. Since the B-cell-specific transcription factor Oct-2 also directly interacts with Z and inhibits its function, these results suggest that EBV uses multiple redundant mechanisms to establish and maintain viral latency in B cells.