The nuclear envelope (NE), a structural element of fundamental importance for the cell, is the first barrier that meets a virus in the early stages of viral maturation. Therefore, in order to allow the passage of nucleocapsids, viruses are known to modulate the architecture of the nuclear membrane to permit a proficient viral infection. Epstein-Barr Virus (EBV), a pathogen from Herpesvirus family, possesses two well conserved proteins, BFRF1 and BFLF2, which together form the heterodimeric nuclear egress complex (NEC) that is involved in the early steps of nuclear egress. Here we show that EBV replication causes the delocalization of emerin, a cellular LEM-domain protein normally distributed on the nuclear rim. We also demonstrate that the early lytic protein BFRF1 is responsible for emerin delocalization. Expression of BFRF1 alone or in combination with BFLF2 induces emerin hyperphosphorylation. Altogether, these results suggest a novel mechanism by which EBV exploits the cellular machinery for nucleocapsid egress.
