Pathogenic fungus expresses effector proteins in combination with a symbiotic virus to behaviourally manipulate housefly hosts

Host manipulation by pathogens and parasites is a widespread phenomenon, but the molecular mechanisms are poorly understood. We investigated the summiting disease caused by the fungus Entomophthora muscae in houseflies, where infected flies climb to elevated positions and die, releasing infectious conidia. We performed dual-RNA sequencing of fly heads at different time points and identified candidate genes from both the host and the pathogen that may be involved in this summiting phenotype. Surprisingly, we also detected an extremely high abundance of a novel positive sense single-stranded (+ss) RNA Iflavirus in infected fly heads. We show that the virus load increases over time and shows signs of accumulation in fly heads and thoraces. We also reveal predicted interactions between fungal secreted proteins and insect host proteins related to neurological and immune functions, suggesting a possible role of these proteins in host manipulation. Furthermore, we find that E. muscae encodes a homologue of ecdysteroid UDP-glucosyltransferase (egt), a gene that has been implicated in host manipulation by other pathogens. Our study reveals a complex interplay between a fungus, a virus and a fly, and suggests that convergent evolution of egt for host manipulation mechanisms may occur in different pathogens.