Publication date: 18 April 2017
Source:Cell Reports, Volume 19, Issue 3
Author(s): David Estoppey, Chia Min Lee, Marco Janoschke, Boon Heng Lee, Kah Fei Wan, Hongping Dong, Philippe Mathys, Ireos Filipuzzi, Tim Schuhmann, Ralph Riedl, Thomas Aust, Olaf Galuba, Gregory McAllister, Carsten Russ, Martin Spiess, Tewis Bouwmeester, Ghislain M.C. Bonamy, Dominic Hoepfner
Flavivirus infections by Zika and dengue virus impose a significant global healthcare threat with no US Food and Drug Administration (FDA)-approved vaccination or specific antiviral treatment available. Here, we present the discovery of an anti-flaviviral natural product named cavinafungin. Cavinafungin is a potent and selectively active compound against Zika and all four dengue virus serotypes. Unbiased, genome-wide genomic profiling in human cells using a novel CRISPR/Cas9 protocol identified the endoplasmic-reticulum-localized signal peptidase as the efficacy target of cavinafungin. Orthogonal profiling in S. cerevisiae followed by the selection of resistant mutants pinpointed the catalytic subunit of the signal peptidase SEC11 as the evolutionary conserved target. Biochemical analysis confirmed a rapid block of signal sequence cleavage of both host and viral proteins by cavinafungin. This study provides an effective compound against the eukaryotic signal peptidase and independent confirmation of the recently identified critical role of the signal peptidase in the replicative cycle of flaviviruses.
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Recent outbreaks and lack of effective treatments against dengue and Zika virus have caused public concerns. Estoppey et al. have identified cavinafungin as exerting potent and selective antiviral activity by targeting the signal-binding cleft of the catalytic subunit of the endoplasmic reticulum signal peptidase.http://ift.tt/2pCFIBn
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