Animals ranging from insects to mammals employ specific taste receptors to perceive distinct food flavors, such as sweet, bitter, sour, and salty. In contrast to other basic taste modalities, salty and sour tastes are primarily mediated through sodium and proton ion channels, respectively. Animals normally prefer low levels of salt or acid and reject high concentrations. Since salt and acid are important mineral nutrients, insufficient or excessive consumption of salt or acid can lead to gastrointestinal, metabolic, and cardiovascular diseases. Although salty and sour tastes have a profound impact on human health, the molecular identities of salty and sour taste receptors have not been fully determined. In addition, the neuronal circuits underlying salt taste response and intake are unknown. Using the fruit fly, Drosophila melanogaster, as a model organism, our previous work identified a new ionotropic glutamate receptor that is required for high-salt sensation. Additionally, we found that a small subset of neurons in the fly brain regulate high-salt avoidance. Moreover, we discovered that a novel ion channel, which can be directly activated by protons, is required for the attractive sour taste response in flies. Building on our preliminary findings, we propose to use the fruit fly as a model organism to explore the molecular and neural mechanisms of salty and sour taste perception. In particular, we will pursue two principal lines of inquiry: (1) decipher the molecular and neural mechanisms of salty taste sensation; and (2) decipher the molecular basis of sour taste sensation. Given that taste transduction mechanisms to salt and acid are analogous between flies and mammals, the molecular insights gleaned from our research in fruit flies will inform studies of salty and sour taste sensations in mammals, including humans.
The flavor of food is largely determined by its taste features, such as salty and sour tastes that are elicited by salt and acid respectively. Abnormal oral perception of salt and acid can lead to inappropriate consumption of salt and acid, leading to many nutrition-related health concerns. Identifying taste receptors and neurons responsible for salty or sour taste perception will contribute to the design of more healthful foods and the discovery of new therapeutic interventions.
