Wolbachia and its pWCP plasmid show differential dynamics during the development of Culex mosquitoes

Mosquitoes are major vectors of pathogens such as arboviruses and parasites, causing significant health impacts each year. Wolbachia, an intracellular bacterium widely distributed among arthropods, represents a promising vector control solution. This bacterium can reduce the transmission of dengue, Zika, and chikungunya arboviruses and manipulate the reproduction of its host through its prophage WO. Although research on the Wolbachia mobilome primarily focuses on WO and the phenotypes it induces, the function of Wolbachia plasmid pWCP, recently discovered and reported to be strikingly conserved worldwide, remains unknown. In this study, we analyzed the presence and abundance of pWCP as well as Wolbachia in two different species of Culex mosquitoes, one of the most widespread genera in the world and a vector of numerous diseases. We compared the relative densities of the bacterium and its mobile genetic element in Culex pipiens molestus and Culex quinquefasciatus, a facultatively autogenous and an anautogenous species, respectively, throughout their development from the larval stage L1 to the adult individual specimen using quantitative Polymerase Chain Reaction (PCR). Our results suggest that 2–5 copies of pWCP occur in Wolbachia cells on average, and the plasmid co-replicates with Wolbachia cells. Moreover, Wolbachia and pWCP exhibit differential levels of abundance at specific development stages throughout the mosquito’s life cycle in each species. These findings indicate important, and likely beneficial, roles for the plasmid in the bacterium’s biology in different mosquito species as well as complex interaction dynamics between Wolbachia and its host during its life cycle.