Epstein-Barr virus (EBV), an ubiquitous human herpes virus which preferentially infects human B lymphocytes and epithelial cells, is being causally implicated in numerous human malignancies, notably Burkett’s lymphoma and nasopharyngeal carcinoma. Among the first viral proteins expressed after EBV infection, Epstein-Barr virus nuclear antigen 2 (EBNA2), a viral transactivator, is known for its indispensability in initiating in vitro B cell transformation and for inducing tumor in transgenic mice. Despite accumulating evidences linking transactivation activity to EBNA2 tumorigenecity, elusiveness still remain in how the viral protein contributes to EBV’s oncogenic nature. A recent study, which pointed out a growth-arresting DNA damage response (DDR) was provoked after EBV infection of primary human B cells, provided a clue. In our previous studies, upon EBNA2 expression in human epithelial cells accumulation of DNA double-strand breaks could be observed and a p53-mediated growth retardation also became apparent. In the present study, we showed that EBNA2 expression alone in human epithelial and B cell lines could lead to DDR activation and result in a G1 growth arrest, which was possibly mediated by p53 activation. Moreover, we demonstrated that PML was required for this EBNA2-induced G1 arrest. And most importantly, we found that EBNA2 expression led to upregulation of PML protein levels and increased PML polysumoylation. Accordingly, by conducting 3D reconstuction, we confirmed that EBNA2 expression could alter PML-NB structure in human epithelial cell. Since PML-NBs are now widely appreciated as crucial nodes in both tumor suppression and anti-viral response, we believe that our findings may shed light on the role of EBNA2 in EBV-mediated tumorigenesis and EBV life cycle.