Litcius/Paper detail

Dengue virus infection modifies mosquito blood-feeding behavior to increase transmission to the host

Benjamin Wong Wei Xiang, Wilfried A. A. Saron, James Stewart, Arthur Hain, Varsha Ashok Walvekar, Dorothée Missé, Frédéric Thomas, R. Manjunatha Kini, Benjamín Roche, Adam Claridge‐Chang, Ashley L. St. John, Julien Pompon

2022Proceedings of the National Academy of Sciences67 citationsDOIOpen Access PDF

Abstract

mosquitoes on mice. We then applied multivariate analysis on the high-throughput, unbiased data generated from the assay to ordinate behavioral parameters into complex behaviors. We showed that DENV infection increases mosquito attraction to the host and hinders its biting efficiency, the latter resulting in the infected mosquitoes biting more to reach similar blood repletion as uninfected mosquitoes. To examine how increased biting influences DENV transmission to the host, we established an in vivo transmission model with immuno-competent mice and demonstrated that successive short probes result in multiple transmissions. Finally, to determine how DENV-induced alterations of host-seeking and biting behaviors influence dengue epidemiology, we integrated the behavioral data within a mathematical model. We calculated that the number of infected hosts per infected mosquito, as determined by the reproduction rate, tripled when mosquito behavior was influenced by DENV infection. Taken together, this multidisciplinary study details how DENV infection modulates mosquito blood-feeding behavior to increase vector capacity, proportionally aggravating DENV epidemiology. By elucidating the contribution of mosquito behavioral alterations on DENV transmission to the host, these results will inform epidemiological modeling to tailor improved interventions against dengue.

Topics & Concepts

BitingDengue feverTransmission (telecommunications)Host (biology)BiologyDengue virusVirologyAedes aegyptiVector (molecular biology)Insect bites and stingsImmunologyEcologyLarvaEngineeringBiochemistryGeneRecombinant DNAElectrical engineeringMosquito-borne diseases and controlMalaria Research and ControlViral Infections and Vectors