The study of the Drosophila innubila Nudivirus in cells and flies

2.

Species of the fruit fly, Drosophila, are essential models for investigating host/virus interactions. Research aimed at understanding how hosts mount immune defenses against viruses and how viruses evade those immune defenses relies on host/virus pairs that have evolved together overtime, thus necessitating a need for a DNA virus model system for Drosophila with a virus that naturally infects the host. The Drosophila innubila Nudivirus (DiNV) is an emerging model system poised to take on the role as the DNA virus model for Drosophila . In this paper we describe the development of the DiNV model system with animal and cellular resources. We describe the development of new Drosophila cell lines, virus titration assays, anti-nucleocapsid antibodies, and injection-based DiNV infections in Drosophila innubila . We find that D. innubila cells can be used to grow DiNV for use in further experiments, and that DiNV is highly virulent when injected into adult D. innubila . The resources we have developed enable substantial future research on the DiNV- D. innubila system.

3.

Impact statement

DNA viruses are the cause of several important and challenging human diseases including hepatitis B, mononucleosis, respiratory disease, gastroenteritis, herpes and chickenpox. Recently there has even been a resurgence of many viral infections due to decreasing rates of vaccination, so to develop better therapeutics and intervention strategies, we must better understand the dynamics of how hosts and DNA viruses interact. The development of a natural DNA virus model in Drosophila creates the opportunity to better understand host/DNA virus interaction.

4.

Data summary

All data and code are available at in our Github repository: available upon publication