Characterisation of AmphiAmR11, an Amphioxus (Branchiostoma floridae) D(2)-Dopamine-Like G Protein-Coupled Receptor

The evolution of the biogenic amine signalling system in vertebrates is unclear. However, insights can be obtained from studying the structures and signalling properties of biogenic amine receptors from the protochordate, amphioxus, which is an invertebrate species that exists at the base of the chordate lineage. Here we describe the signalling properties of AmphiAmR11, an amphioxus (Branchiostoma floridae) G protein-coupled receptor which has structural similarities to vertebrate α(2)-adrenergic receptors but which functionally acts as a D(2) dopamine-like receptor when expressed in Chinese hamster ovary -K1 cells. AmphiAmR11 inhibits forskolin-stimulated cyclic AMP levels with tyramine, phenylethylamine and dopamine being the most potent agonists. AmphiAmR11 also increases mitogen-activated protein kinase activity and calcium mobilisation, and in both pathways, dopamine was found to be more potent than tyramine. Thus, differences in the relative effectiveness of various agonists in the different second messenger assay systems suggest that the receptor displays agonist-specific coupling (biased agonism) whereby different agonists stabilize different conformations of the receptor which lead to the enhancement of one signalling pathway over another. The present study provides insights into the evolution of α(2)-adrenergic receptor signalling and support the hypothesis that α(2)-adrenergic receptors evolved from D(2)-dopamine receptors. The AmphiAmR11 receptor may represent a transition state between D(2)-dopamine receptors and α(2)-adrenergic receptors.