Insect-symbiont interactions are known to play key roles in host functions and fitness. The common insect endosymbiont Wolbachia can reduce the ability of several human pathogens, including arboviruses and the malaria parasite, to replicate in insect hosts. Wolbachia does not naturally infect Aedes aegypti, the primary vector of dengue virus, but transinfected Ae. aegypti have antidengue virus properties and are currently being trialled as a dengue biocontrol strategy. Here, we assess the impact of Wolbachia infection of Ae. aegypti on the microbiome of wild mosquito populations (adults and larvae) collected from release sites in Cairns, Australia, by profiling the 16S rRNA gene using next-generation sequencing. Our data indicate that Wolbachia reduces the relative abundance of a large proportion of bacterial taxa in Ae. aegypti adults, that is in accordance with the known pathogen-blocking effects of Wolbachia on a variety of bacteria and viruses. In adults, several of the most abundant bacterial genera were found to undergo significant shifts in relative abundance. However, the genera showing the greatest changes in relative abundance in Wolbachia-infected adults represented a low proportion of the total microbiome. In addition, there was little effect of Wolbachia infection on the relative abundance of bacterial taxa in larvae, or on species diversity (accounting for species richness and evenness together) detected in adults or larvae. These results offer insight into the effects of Wolbachia on the Ae. aegypti microbiome in a native setting, an important consideration for field releases of Wolbachia into the population.insect, microbiome, mosquito, symbiosis, Wolbachia
| INTRODUCTIONInteractions between insect hosts and their associated microbiome can have substantial impact on host physiology. Broad changes to the microbiome can affect functions including development, fecundity, metabolism and immunity/susceptibility to pathogens (Coon, Vogel, Brown, & Strand, 2014;de O Gaio et al., 2011;Gall et al., 2016;Ridley, Wong, Westmiller, & Douglas, 2012). It is also well known that specific symbiotic bacteria of insects can play key roles in host functions (Douglas, 2011). Two well-studied systems include the aphids where the obligate symbiont Buchnera aphidicola synthesizes amino acids that are essential for aphid nutrition (Akman G€ und€ uz & Douglas, 2009) More broadly, the overall structure of the microbiome can also be important in the fitness of insects such as bees and mosquitoes, with changes to the composition of the microbiome shown to increase *These authors contributed equally to this study. the mortality of bees following exposure to bacterial pathogens (Raymann, Shaffer, & Moran, 2017) and to alter mosquito fecundity (de O Gaio et al., 2011;Gendrin et al., 2015;). It is evident in cases such as these where significant microbiome-host interactions occur, disturbing the insect bacterial population can adversely affect host fitness (Douglas, 2011). These include a recent study that has exami...
