The zinc finger antiviral protein (ZAP) was recently shown to inhibit Moloney murine leukemia virus and Sindbis virus replication. We tested whether ZAP also acts against Ebola virus (EBOV) and Marburg virus (MARV). Antiviral effects were observed after infection of cells expressing the N-terminal part of ZAP fused to the product of the zeocin resistance gene (NZAP-Zeo) as well as after infection of cells inducibly expressing full-length ZAP. EBOV was inhibited by up to 4 log units, whereas MARV was inhibited between 1 to 2 log units. The activity of ZAP was dependent on the integrity of the second and fourth zinc finger motif, as tested with cell lines expressing NZAP-Zeo mutants. Heterologous expression of EBOV-and MARV-specific sequences fused to a reporter gene suggest that ZAP specifically targets L gene sequences. The activity of NZAP-Zeo in this assay was also dependent on the integrity of the second and fourth zinc finger motif. Time-course experiments with infectious EBOV showed that ZAP reduces the level of L mRNA before the level of genomic or antigenomic RNA is affected. Transient expression of ZAP decreased the activity of an EBOV replicon system by up to 95%. This inhibitory effect could be partially compensated for by overexpression of L protein.In conclusion, the data demonstrate that ZAP exhibits antiviral activity against filoviruses, presumably by decreasing the level of viral mRNA.
Ebola virus (EBOV) and Marburg virus (MARV) belong to the family Filoviridae.Their genome consists of a singlestranded RNA genome of negative polarity with a length of about 19 kb. The filovirus genome is transcribed in monocistronic mRNA species, which encode seven structural proteins: a single surface protein (GP), a matrix protein (virus protein 40 [VP40]), a second minor matrix protein (VP24), and four nucleocapsid proteins (nucleoprotein [NP], L protein, VP35, and VP30) (7,15,16,18,25). Both EBOV and MARV cause severe hemorrhagic fever in humans and nonhuman primates (4,19). Infections with filoviruses are characterized by high fever, hemorrhages, and shock (19,22). For Zaire-EBOV and MARV, mortality rates up to 90% have been described; the mortality rates for Sudan-EBOV are about 60% (from the Centers for Disease Control and Prevention website [http: //www.cdc.gov/]). To date, neither a vaccine nor a therapy for treating infected patients is available.In contrast to many other viruses, no host cell proteins with antiviral activity have been identified so far for filoviruses. However, it is known that filoviruses antagonize the interferon (IFN) response (17), suggesting that the IFN pathway plays a role in the host cell response against filoviruses. Both VP35 and VP24 of EBOV have been found to be involved in the IFN antagonism (6,12,23).In an attempt to search for host cell antiviral proteins active against filoviruses, we analyzed the effect of the CCCH-type zinc finger antiviral protein (ZAP) (8) on EBOV and MARV replication. ZAP was discovered via its ability to inhibit Moloney murine leukemia virus (MMLV)...
