The virus family Flaviviridae encompasses several viruses, including (re)-emerging viruses which cause widespread morbidity and mortality throughout the world. Members of this virus family are positive-strand RNA viruses and replicate their genome in close association with reorganized intracellular host cell membrane compartments. This evolutionary conserved strategy facilitates efficient viral genome replication and contributes to evasion from host cell cytosolic defense mechanisms.
We have previously described the identification of a small compound inhibitor, K22, which exerts a potent antiviral activity against a broad range of coronaviruses by targeting membrane-bound viral RNA replication. To analyze the antiviral spectrum of this inhibitor, we assessed the inhibitory potential of K22 against several members of the Flaviviridae family, including the re-emerging Zika virus (ZIKV). We show that ZIKV is strongly affected by K22. Time of addition experiments revealed that K22 acts during a post-entry phase of the ZIKV life cycle, and combination regimens of K22 together with ribavirin (RBV) or interferon alpha (IFN-α) further increased the extent of viral inhibition. Ultrastructural electron microscopy studies revealed severe alterations of ZIKV-induced intracellular replication compartments upon infection of K22-treated cells. Importantly, the antiviral activity of K22 was demonstrated against several other members of the Flaviviridae family. It is tempting to speculate that K22 exerts its broad antiviral activity against several positive-strand RNA viruses via a similar mechanism, and thereby represents an attractive candidate for the development of a pan-viral inhibitor.
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