Publication date: 28 February 2017
Source:Cell Reports, Volume 18, Issue 9
Author(s): Mirko Cortese, Sarah Goellner, Eliana Gisela Acosta, Christopher John Neufeldt, Olga Oleksiuk, Marko Lampe, Uta Haselmann, Charlotta Funaya, Nicole Schieber, Paolo Ronchi, Martin Schorb, Priit Pruunsild, Yannick Schwab, Laurent Chatel-Chaix, Alessia Ruggieri, Ralf Bartenschlager
A global concern has emerged with the pandemic spread of Zika virus (ZIKV) infections that can cause severe neurological symptoms in adults and newborns. ZIKV is a positive-strand RNA virus replicating in virus-induced membranous replication factories (RFs). Here we used various imaging techniques to investigate the ultrastructural details of ZIKV RFs and their relationship with host cell organelles. Analyses of human hepatic cells and neural progenitor cells infected with ZIKV revealed endoplasmic reticulum (ER) membrane invaginations containing pore-like openings toward the cytosol, reminiscent to RFs in Dengue virus-infected cells. Both the MR766 African strain and the H/PF/2013 Asian strain, the latter linked to neurological diseases, induce RFs of similar architecture. Importantly, ZIKV infection causes a drastic reorganization of microtubules and intermediate filaments forming cage-like structures surrounding the viral RF. Consistently, ZIKV replication is suppressed by cytoskeleton-targeting drugs. Thus, ZIKV RFs are tightly linked to rearrangements of the host cell cytoskeleton.
Graphical abstract
Teaser
Cortese et al. show that ZIKV infection in both human hepatoma and neuronal progenitor cells induces drastic structural modification of the cellular architecture. Microtubules and intermediate filaments surround the viral replication factory composed of vesicles corresponding to ER membrane invagination toward the ER lumen. Importantly, alteration of microtubule flexibility impairs ZIKV replication.http://ift.tt/2lm4gbL
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