Variable effects ofWolbachiaon alphavirus infection inAedes aegypti

2. Abstract Wolbachia pipientis (= Wolbachia ) has promise as a tool to suppress virus transmission by Aedes aegypti mosquitoes. However, Wolbachia can have variable effects on mosquito-borne viruses. This variation remains poorly characterized, yet the multimodal effects of Wolbachia on diverse pathogens could have important implications for public health. Here, we examine the effects of somatic infection with two strains of Wolbachia ( w AlbB and w Mel) on the alphaviruses Sindbis virus (SINV), O’nyong-nyong virus (ONNV), and Mayaro virus (MAYV) in Ae. aegypti . We found variable effects of Wolbachia including enhancement and suppression of viral infections, with some effects depending on Wolbachia strain. Both w AlbB- and w Mel-infected mosquitoes showed enhancement of SINV infection rates one week post-infection, with w AlbB-infected mosquitoes also having higher viral titers than controls. Infection rates with ONNV were low across all treatments and no significant effects of Wolbachia were observed. The effects of Wolbachia on MAYV infections were strikingly strain-specific; w Mel strongly blocked MAYV infections and suppressed viral titers, while w AlbB did not influence MAYV infection. The variable effects of Wolbachia on vector competence underscore the importance of further research into how this bacterium impacts the virome of wild mosquitoes including the emergent human pathogens they transmit. Impact statement In recent years, wild populations of Aedes aegypti mosquitoes have been deliberately infected with Wolbachia —a bacterium that helps to curb the spread of some pathogens including dengue virus. But how does Wolbachia affect the ability of mosquitoes to become infected with and spread the many different viruses they encounter in nature? Here, we characterize the effects of Wolbachia on three alphaviruses that cause illness in humans— Sindbis virus, O’nyong-nyong virus, and Mayaro virus. We find Wolbachia has variable effects on these pathogens, including significant enhancement of Sindbis virus infections. Our research has important implications for the design of vector control strategies, and suggests further research is needed to understand how Wolbachia shapes the replication and transmission of diverse viruses. 3. Data Summary All data in the study are available in the Figures and supplementary material.