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Mosquito metabolomics reveal that dengue virus replication requires phospholipid reconfiguration via the remodeling cycle

Thomas Vial, Wei-Lian Tan, Eric Deharo, Dorothée Missé, Guillaume Marti, Julien Pompon

2020Proceedings of the National Academy of Sciences46 citationsDOIOpen Access PDF

Abstract

Dengue virus (DENV) subdues cell membranes for its cellular cycle by reconfiguring phospholipids in humans and mosquitoes. Here, we determined how and why DENV reconfigures phospholipids in the mosquito vector. By inhibiting and activating the de novo phospholipid biosynthesis, we demonstrated the antiviral impact of de novo-produced phospholipids. In line with the virus hijacking lipids for its benefit, metabolomics analyses indicated that DENV actively inhibited the de novo phospholipid pathway and instead triggered phospholipid remodeling. We demonstrated the early induction of remodeling during infection by using isotope tracing in mosquito cells. We then confirmed in mosquitoes the antiviral impact of de novo phospholipids by supplementing infectious blood meals with a de novo phospholipid precursor. Eventually, we determined that phospholipid reconfiguration was required for viral genome replication but not for the other steps of the virus cellular cycle. Overall, we now propose that DENV reconfigures phospholipids through the remodeling cycle to modify the endomembrane and facilitate formation of the replication complex. Furthermore, our study identified de novo phospholipid precursor as a blood determinant of DENV human-to-mosquito transmission.

Topics & Concepts

BiologyDengue virusEndomembrane systemPhospholipidDengue feverViral replicationCell biologyVirologyVirusBiochemistryGolgi apparatusMembraneEndoplasmic reticulumMosquito-borne diseases and controlMalaria Research and ControlViral Infections and Vectors
Mosquito metabolomics reveal that dengue virus replication requires phospholipid reconfiguration via the remodeling cycle | Litcius