Functional expression of a mammalian olfactory receptor in Caenorhabditis elegans.

The olfactory system in both vertebrates and invertebrates can recognize and distinguish thousands of chemical signals. Olfactory receptors are responsible for the early molecular events in the detection of volatile compounds and the perception of smell. Recently, candidate olfactory receptor genes have been identified in several organisms, but their characterization is far from been completed due to the difficulty to functionally express them in heterologous systems. To circumvent such difficulty, we expressed a mammalian olfactory gene, rat I7, in the nematode. We generated transgenic worms expressing I7 in AWA or AWB chemosensory neurons and performed behavioural assays using different concentrations of the rat I7 receptor agonist octanal. Pure octanal was repellent for wild-type worms whereas a 1:10 dilution was attractant. Expression of I7 in AWB neurons counteracted the volatile attraction to diluted octanal observed in control wild-type worms. Furthermore, expression of I7 in AWA neurons counteracted the volatile avoidance to pure octanal observed in wild-type worms. These results indicate that it is possible to functionally express mammalian olfactory receptors in providing a research tool to efficiently search for specific olfactory receptor ligands and to extend our understanding of the molecular basis of olfaction.