A small number of male‐biased candidate pheromone receptors are expressed in large subsets of the olfactory sensory neurons in the antennae of drones from the European honey bee Apis mellifera

In the European honey bee (Apis mellifera), the olfactory system is essential for foraging and intraspecific communication via pheromones. Honey bees are equipped with a large repertoire of olfactory receptors belonging to the insect odorant receptor (OR) family. Previous studies have indicated that...

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Bibliographic Details
Published in:Insect science 2022-06, Vol.29 (3), p.749-766
Main Authors: Fleischer, Joerg, Rausch, Alexander, Dietze, Kathrin, Erler, Silvio, Cassau, Sina, Krieger, Jürgen
Format: Article
Language:English
Subjects:
Antennae
Apis mellifera
Bees
Butterflies & moths
Chemical communication
chemosensory
Drones
Females
Honey
Hybridization
Insects
Males
Neurons
odorant receptor
Odorant receptors
olfaction
Olfactory receptor neurons
Olfactory system
pheromone detection
Pheromone receptors
Pheromones
Queens
Receptors
sensilla placodea
Sensory neurons
Sex
Sex pheromone
Workers (insect caste)
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Summary:In the European honey bee (Apis mellifera), the olfactory system is essential for foraging and intraspecific communication via pheromones. Honey bees are equipped with a large repertoire of olfactory receptors belonging to the insect odorant receptor (OR) family. Previous studies have indicated that the transcription level of a few OR types including OR11, a receptor activated by the queen‐released pheromone compound (2E)‐9‐oxodecenoic acid (9‐ODA), is significantly higher in the antenna of males (drones) than in female workers. However, the number and distribution of antennal cells expressing male‐biased ORs is elusive. Here, we analyzed antennal sections from bees by in situ hybridization for the expression of the male‐biased receptors OR11, OR18, and OR170. Our results demonstrate that these receptors are expressed in only moderate numbers of cells in the antennae of females (workers and queens), whereas substantially higher cell numbers express these ORs in drones. Thus, the reported male‐biased transcript levels are due to sex‐specific differences in the number of antennal cells expressing these receptors. Detailed analyses for OR11 and OR18 in drone antennae revealed expression in two distinct subsets of olfactory sensory neurons (OSNs) that in total account for approximately 69% of the OR‐positive cells. Such high percentages of OSNs expressing given receptors are reminiscent of male‐biased ORs in moths that mediate the detection of female‐released sex pheromone components. Collectively, our findings indicate remarkable similarities between male antennae of bees and moths and support the concept that male‐biased ORs in bee drones serve the detection of female‐emitted sex pheromones. Graphical : In situ hybridization experiments with antennal sections from honey bees (Apis mellifera) demonstrated that certain odorant receptor types are expressed in substantially larger numbers of sensory cells in the antennae of drones than in workers, accounting for the majority of the olfactory neurons in males (scale bars: 50 μm).
ISSN:1672-9609
1744-7917
DOI:10.1111/1744-7917.12960