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Tyramine 1 Receptor Distribution in the Brain of Corbiculate Bees Points to a Conserved Function
Author(s) -
Markus Thamm,
Katharina Wagler,
Axel Brockmann,
Ricarda Scheiner
Publication year - 2021
Publication title -
brain, behavior and evolution
Language(s) - English
Resource type - Journals
eISSN - 1421-9743
pISSN - 0006-8977
DOI - 10.1159/000517014
Subject(s) - biology , tyramine , receptor , neuroscience , receptor expression , microbiology and biotechnology , endocrinology , biochemistry
Sucrose represents an important carbohydrate source for most bee species. In the Western honeybee ( Apis mellifera ) it was shown that individual sucrose responsiveness correlates with the task performed in the colony, supporting the response threshold theory which states that individuals with the lowest threshold for a task-associated stimuli will perform the associated task. Tyramine was shown to modulate sucrose responsiveness, most likely via the tyramine 1 receptor. This receptor is located in brain areas important for the processing of gustatory stimuli. We asked whether the spatial expression pattern of the tyramine 1 receptor is a unique adaptation of honeybees or if its expression represents a conserved trait. Using a specific tyramine receptor 1 antibody, we compared the spatial expression of this receptor in the brain of different corbiculate bee species, including eusocial honeybees, bumblebees, stingless bees, and the solitary bee Osmia bicornis as an outgroup. We found a similar labeling pattern in the mushroom bodies, the central complex, the dorsal lobe, and the gnathal ganglia, indicating a conserved receptor expression. With respect to sucrose responsiveness this result is of special importance. We assume that the tyramine 1 receptor expression in these neuropiles provides the basis for modulation of sucrose responsiveness. Furthermore, the tyramine 1 receptor expression seems to be independent of size, as labeling is similar in bee species that differ greatly in their body size. However, the situation in the optic lobes appears to be different. Here, the lobula of stingless bees is clearly labeled by the tyramine receptor 1 antibody, whereas this labeling is absent in other species. This indicates that the regulation of this receptor is different in the optic lobes, while its function in this neuropile remains unclear.

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