Mechanism of acetic acid gustatory repulsion in Drosophila

TitleMechanism of acetic acid gustatory repulsion in Drosophila
Publication TypeJournal Article
Year of Publication2019
AuthorsRimal S., Sang J., Poudel S., Thakur D., Montell C., Lee Y.
JournalCell Rep
Volume26
Pagination1432-1442.e4
Date Published2019 Feb 05
ISSN2211-1247
Abstract

The decision to consume or reject a food based on the degree of acidity is critical for animal survival. However, the gustatory receptors that detect sour compounds and influence feeding behavior have been elusive. Here, using the fly, Drosophila melanogaster, we reveal that a member of the ionotropic receptor family, IR7a, is essential for rejecting foods laced with high levels of acetic acid. IR7a is dispensable for repulsion of other acidic compounds, indicating that the gustatory sensation of acids occurs through a repertoire rather than a single receptor. The fly's main taste organ, the labellum, is decorated with bristles that house dendrites of gustatory receptor neurons (GRNs). IR7a is expressed in a subset of bitter GRNs rather than GRNs dedicated to sour taste. Our findings indicate that flies taste acids through a repertoire of receptors, enabling them to discriminate foods on the basis of acid composition rather than just pH.

DOI10.1016/j.celrep.2019.01.042
Alternate JournalCell Rep
PubMed ID30726729