PALMITOYLATION BUT NOT THE EXTREME AMINO-TERMINUS OF G(Q-ALPHA) IS REQUIRED FOR COUPLING TO THE NK2 RECEPTOR

G(q alpha) and G(11 alpha) differ from other G protein a subunits in t hat they have unique, conserved 6 residue amino-terminal extensions. W ild-type and amino-terminal mutants of G(q alpha) expressed in COS cel ls were analyzed for their ability to functionally couple with co-expr essed neurokinin NK2 receptor. Wild-type, T2A and Delta 2-7 G(q alpha) were able to stimulate agonist driven phospholipase C (PLC) activity in identical manners. Other activities of these two amino-terminal mut ants including aluminum fluoride stimulated PLC activity, palmitoylati on, interaction with G(beta gamma) subunits and GTP gamma S-induced tr ypsin resistance are also similar to the wild-type alpha subunit. This demonstrates that the NK2 receptor is able to functionally interact w ith the alpha subunit of G(q) and that the first seven amino-acids of G(q alpha) are not required for any of the alpha subunit functions tes ted. In contrast to the T2A and Delta 2-7 mutants, a C9,10A G(q alpha) mutant was not able to couple to either the NK2 receptor or PLC, as a ssessed by high-affinity agonist binding and activation of PLC either in intact cells or in vitro. The C9,10A protein was able to assume a G TP gamma S-induced trypsin-resistant conformation and partitioned prim arily to the pelletable fraction in a manner similar to the wild-type protein. However, it was not labeled with [H-3]palmitic acid. This sug gests that blocking palmitoylation at the amino-terminus of G(q alpha) results in a loss of functional activity which reflects an inability to interact with both the receptor and downstream signaling targets.