EFFECTS OF HIGH URACIL DIET-INDUCED GUT DYSBIOSIS ON COURTSHIP BEHAVIOR IN DROSOPHILA

Abstract

AbstractPast research has established that Drosophila gut inflammation via the dual oxidase (DUOX) regulatory pathway is induced by exposure to bacterial-derived uracil, which can be secreted by allochthonous and autochthonous bacteria in the midgut. However, the effects of the inflammatory response and resulting gut dysbiosis on the courtship behavior of the Drosophila host have yet to be determined. This work studies the changes in Drosophila courtship behavior resulting from diet-based exposure to uracil, a ligand for DUOX-dependent reactive oxygen species (ROS) generation in the epithelia of the midgut. The effects of a high-uracil diet on courtship behavior were determined by comparing courtship index (CI) values of flies treated with 20 nM of uracil for 16-hr (short-term) or 10-d (long-term) exposure to age-matched control flies. Although short-term uracil treatment caused no change in courtship behavior, long-term uracil treatment resulted in a significant decrease in CI. This result suggests that the underlying association for the behavioral change may be influenced by gut inflammation initiated by long-term exposure to uracil. By measuring the effects of an innate immune response such as exposure to a ligand for DUOX-dependent ROS generation on the courtship index of Drosophila, the current understanding of the relationship between gut inflammation and behavioral changes in animals can be expanded. Given that prior research has also established that the DUOX-dependent response can be found in animals ranging from Drosophila to humans, the behavioral changes observed from induction of the pathway have the potential to expand this connection in the future.