In this study, a large number of receptor mutants were generated and several N-terminally modified galanin analogues synthesized to refine the previously proposed binding site model for galanin to its GTP-binding-protein-coupled receptor GalRl . In addition to ligand-binding studies, the functionality of mutant receptors was evaluated by assessing their ability to mediate galaninergic inhibition of isoproterenol-stimulated adenylyl cyclase activity. The His264Ala and Phe282Ala receptor mutants, although deficient in binding in the concentration range of galanin used, remain functional albeit 20-fold less efficient than the wild-type receptor in mediating inhibition of stimulated CAMP production by galanin. The His267Ala mutant is, apart from being deficient in galanin binding, also severely impaired in functional coupling. While His264 and Phe282 seem to be important in forming the binding pocket for galanin, His267 might play a role in forming or stabilizing the active conformation of the GalRl receptor rather than directly participating in the formation of the binding pocket for galanin.N-terminal carboxylic acid analogues of galanin have low affinity to wild-type GalRl, but rubstantially increased affinity to the Glu27lLys receptor mutant. This, together with the finding that an alanine substitution of PhellS in TM 111 results in a tenfold decrease in affinity for galanin, suggests that the N-terminus of galanin interacts with PhellS. In contrast to the Phe282AIa mutation in TM VII, a conservative mutation of Phe282 to tyrosine did not alter the affinity for galanin. Thus, the interaction between Tyr9 of galanin and Phe282 is likely to be of an aromatic-aromatic nature.Keywords: galanin ; mutagenesis ; receptor ; binding ; peptide.The neuropeptide galanin plays important roles in physiological functions such as pain signalling, acquisition, feeding, and hormone release (for reviews, see [2, 31). The effects are mediated via 7-transmembrane (7-TM) spanning domain type receptors coupled via inhibitory GTP-binding proteins (GJG,) Structure/activity relationship studies using galanin fragments and analogues show that high-affinity binding as well as agonist action resides in the N-terminal part of galanin, which in its first 14 amino acids is fully conserved in all species studied. Studies of L-Ala substituted analogues of galanin demonstrate that Trp2 and Tyr9 as well as the free N-terminal amino group are the major pharmacophores [S].The ligand-binding sites of GTP-binding-protein-coupled receptors for small ligands such as monoamines [9] and low-molecular-mass, non-peptide antagonists to peptide receptors [ 101 have been delineated in recent years. These small ligands, with molecular masses of less than 500 Da, bind at sites in the TM domains (monoamines) or near the extracellular tops of these helices (non-peptide antagonists) [lo]. Recently, studies on the binding mode of intermediately sized peptides such as substance Neurotoxicology, Stockholm University, S-I 06 91 Stockholm Sweden P and angiotensin I1 h...
