The calcium channel inhibitor lacidipine inhibits Zika virus replication in neural progenitor cells.

After decades of being considered non-pathogenic, Zika virus (ZIKV) emerged as an important threat to human health during the epidemic of 2015-2016. ZIKV infections are usually asymptomatic, but can cause Guillain-Barré syndrome in adults and microcephaly in newborns. As there are currently no approved antiviral drugs against ZIKV, we tested anti-ZIKV activity of compounds from the NIH Clinical Collection for which we previously showed antiviral activity against the related dengue virus. One of the top hits from the screen was lacidipine, a 1,4-dihydropyridine calcium antagonist that is approved as an antihypertensive drug. Our data show that lacidipine is antiviral against ZIKV (strain H/PF/2013) in both Vero cells and induced pluripotent stem cell (iPSC)-derived human neural progenitor cells with IC50 values of 3.0 µM and <50 nM, respectively. The antiviral effect was also observed against four other ZIKV strains from the African and Asian lineages. Time-of-addition and replicon assays indicated that lacidipine acts at the post-entry stage of the viral replication cycle, inhibiting viral genome replication. Lacidipine altered the subcellular distribution of free cholesterol and neutral lipids, suggesting that the antiviral effect of lacidipine is mediated by altered trafficking of lipids. Together, these results identify lacidipine as a novel inhibitor of ZIKV replication that likely disturbs trafficking of lipids needed for replication organelle formation.

Posaconazole inhibits dengue virus replication by targeting oxysterol-binding protein.

Dengue virus (DENV) is associated with an estimated 390 million infections per year, occurring across approximately 100 countries in tropical and sub-tropical regions. To date, there are no antiviral drugs or specific therapies to treat DENV infection. Posaconazole and itraconazole are potent antifungal drugs that inhibit ergosterol biosynthesis in fungal cells, but also target a number of human proteins. Here, we show that itraconazole and posaconazole have antiviral activity against DENV. Posaconazole inhibited replication of multiple serotypes of DENV and the related flavivirus Zika virus, and reduced viral RNA replication, but not translation of the viral genome. We used a combination of knockdown and drug sensitization assays to define the molecular target of posaconazole that mediates its antiviral activity. We found that knockdown of oxysterol-binding protein (OSBP) inhibited DENV replication. Moreover, knockdown of OSBP, but not other known targets of posaconazole, enhanced the inhibitory effect of posaconazole. Our findings imply OSBP as a potential target for the development of antiviral compounds against DENV.