Reconstitution of human 5-hydroxytryptamine5A receptor--G protein coupling in E. coli and Sf9 cell membranes with membranes from Sf9 cells expressing mammalian G proteins.

The human 5-hydroxytryptamine5A (h5-ht5A) receptor was expressed in Escherichia coli (h5-ht5A-E. coli) to verify its pharmacological profile in the absence of G proteins. In addition, the ability of the h5-ht5A receptor to interact with mammalian Gi/o and Gs proteins was investigated by a new reconstitution approach. Agonists displayed lower affinities for h5-ht5A-E. coli than for stably transfected h5-ht5A-HEK 293 cells, due to the absence of G protein coupling in E. coli. Lysergic acid diethylamide behaved as a neutral antagonist, showing equal affinities for the G protein-coupled and the uncoupled receptor. To analyze the G protein coupling behavior of the h5-ht5A receptor, h5-ht5A-E. coli membranes or h5-ht5A-Sf9 insect cell membranes were fused by vortexing to membranes from baculovirus-infected Sf9 cells expressing mammalian G proteins. The ability of the h5-ht5A receptor to differentiate between Gi/Go/Gz and Gs proteins was explored by investigation of agonist binding affinities and agonist-induced stimulation of [35S]GTP gamma S binding. The h5-ht5A receptor failed to interact with Gz and Gs proteins and coupled equally well to Gj and Go proteins to form a complex with high affinity for agonists. Under the applied conditions, however, Gi proteins were found to be better activated than Go proteins in the [35S]GTP gamma S binding assay.