Microbial interactions in the mosquito gut determine Serratia colonization and blood feeding propensity.

Kozlova, Elena V; Hegde, Shivanand; Roundy, Christopher M; Golovko, George; A Saldana, Miguel; Hart, Charles E; Anderson, Enyia R; Hornett, Emily A; Khanipov, Kamil; Popov, Vsevolod L; Pimenova, Maria; Zhou, Yiyang; Fovanov, Yuriy; Weaver, Scott C; Routh, Andrew L; Heinz, Eva; Hughes, Grant L

doi:10.1101/2020.04.14.039701

Microbial interactions in the mosquito gut determine Serratia colonization and blood feeding propensity.

Kozlova, Elena V; Hegde, Shivanand; Roundy, Christopher M; Golovko, George; A Saldana, Miguel; Hart, Charles E; Anderson, Enyia R; Hornett, Emily A; Khanipov, Kamil; Popov, Vsevolod L; Pimenova, Maria; Zhou, Yiyang; Fovanov, Yuriy; Weaver, Scott C; Routh, Andrew L; Heinz, Eva; Hughes, Grant L

Authors

Elena V Kozlova

Shivanand Hegde s.m.hegde@keele.ac.uk

Christopher M Roundy

George Golovko

Miguel A Saldana

Charles E Hart

Enyia R Anderson

Emily A Hornett

Kamil Khanipov

Vsevolod L Popov

Maria Pimenova

Yiyang Zhou

Yuriy Fovanov

Scott C Weaver

Andrew L Routh

Eva Heinz

Grant L Hughes

Abstract

How microbe-microbe interactions dictate microbial complexity in the mosquito gut is unclear. Previously we found that Serratia, a gut symbiont that alters vector competence and is being considered for vector control, poorly colonized Aedes aegypti yet was abundant in Culex quinquefasciatus reared under identical conditions. To investigate the incompatibility between Serratia and Ae. aegypti, we characterized two distinct strains of Serratia marcescens from Cx. quinquefasciatus and examined their ability to infect Ae. aegypti. Both Serratia strains poorly infected Ae. aegypti, but when microbiome homeostasis was disrupted, the prevalence and titers of Serratia were similar to the infection in its native host. Examination of multiple genetically diverse Ae. aegypti lines found microbial interference to S. marcescens was commonplace, however one line of Ae. aegypti was susceptible to infection. Microbiome analysis of resistant and susceptible lines indicated an inverse correlation between Enterobacteriaceae bacteria and Serratia, and experimental co-infections in a gnotobiotic system recapitulated the interference phenotype. Furthermore, we observed an effect on host behaviour; Serratia exposure to Ae. aegypti disrupted their feeding behaviour, and this phenotype was also reliant on interactions with their native microbiota. Our work highlights the complexity of host-microbe interactions and provides evidence that microbial interactions influence mosquito behaviour.

Citation

Kozlova, E. V., Hegde, S., Roundy, C. M., Golovko, G., A Saldana, M., Hart, C. E., Anderson, E. R., Hornett, E. A., Khanipov, K., Popov, V. L., Pimenova, M., Zhou, Y., Fovanov, Y., Weaver, S. C., Routh, A. L., Heinz, E., & Hughes, G. L. Microbial interactions in the mosquito gut determine Serratia colonization and blood feeding propensity. arXiv, https://doi.org/10.1101/2020.04.14.039701

Journal Article Type	Other
Deposit Date	Feb 13, 2024
Print ISSN	2331-8422
Publisher	Cornell University
Peer Reviewed	Not Peer Reviewed
DOI	https://doi.org/10.1101/2020.04.14.039701
Public URL	https://keele-repository.worktribe.com/output/742970
Publisher URL	https://www.biorxiv.org/content/10.1101/2020.04.14.039701v1