Pheromones mediating copulation and attraction in Drosophila

Intraspecific olfactory signals known as pheromones play important roles in insect mating systems. In the model Drosophila melanogaster, a key part of the pheromone-detecting system has remained enigmatic through many years of research in terms of both its behavioral significance and its activating ligands. Here we show that Or47b-and Or88a-expressing olfactory sensory neurons (OSNs) detect the fly-produced odorants methyl laurate (ML), methyl myristate, and methyl palmitate. Fruitless (fru^M)-positive Or47b-expressing OSNs detect ML exclusively, and Or47b- and Or47b-expressing OSNs are required for optimal male copulation behavior. In addition, activation of Or47b-expressing OSNs in the male is sufficient to provide a competitive mating advantage. We further find that the vigorous male courtship displayed toward oenocyte-less flies is attributed to an oenocyte-independent sustained production of the Or47b ligand, ML. In addition, we reveal that Or88a-expressing OSNs respond to all three compounds, and that these neurons are necessary and sufficient for attraction behavior in both males and females. Beyond the OSN level, information regarding the three fly odorants is transferred from the antennal lobe to higher brain centers in two dedicated neural lines. Finally, we find that both Or47b- and Or88a-based systems and their ligands are remarkably conserved over a number of drosophilid species. Taken together, our results close a significant gap in the understanding of the olfactory background to Drosophila mating and attraction behavior; while reproductive isolation barriers between species are created mainly by species-specific signals, the mating enhancing signal in several Drosophila species is conserved.In the vinegar fly Drosophila melanogaster, cuticular hydrocarbons (CHCs) act as pheremones and play important roles in courtship and aggregation behaviors. These pheremones include the female-specific aphrodisiacs (Z,Z)-7,11-heptacosadiene (7,11-HD) and (Z,Z)-7,11-nonacosadiene (7,11-ND) and the male specific antiaphrodisiacs (Z)-7-tricosene (7-T) and 11-cis-vaccenyl acetate (cVA) (1). However, several lines of evidence suggest that other unidentified pheromones likely contribute to courtship and aggregation behaviors. Previous studies have demonstrated that an unidentified volatile sex pheromone produced by female flies stimulates male courtship (2–6). Flies anosmic to cVA exhibit residual attraction to live male flies, suggesting that other attractive cues are produced by flies that are independent of cVA and its neural circuit (7). Furthermore, no specific ligands other than cVA have been identified for the potential pheromone receptors expressed in OSNs of antennal trichoid sensilla (8). Moreover, OSNs expressing olfactory receptors Or47a and Or88a housed in trichoid sensilla respond to unidentified odors in male and female body wash extracts (9).Although the CHC profile of D. melanogaster has been characterized by several analytical techniques (10–14), it is not yet complete (3). In the present study, we used thermal desorption-gas chromatography-mass spectrometry (TD-GC-MS) to determine whether flies harbor so far unidentified CHCs. TD-GC-MS provides a highly sensitive and labor-saving alternative to solvent extraction, and allows analysis of a wider volatility range of components than all previously mentioned techniques. In addition, this method has been applied to confirm the composition of sex pheromones in other insect species (15, 16).Here we demonstrate the presence of a truly positive fly-produced signal mediating mating and dissect the neural mechanism underlying its detection. With our findings, the understanding of male olfactory-based sexual arousal is becoming more complete, with all fru-positive OSNs now with known ligands. We also report the presence of the first fly odorants that exclusively mediate attraction in both sexes via a pathway separated from that involved in sexual and social behaviors. Interestingly, both systems and their ligands are remarkably conserved over a number of drosophilid species.