Galanin receptor ligands

Runesson, Johan

January 2009

In the nervous system galanin primarily displays a modulatory role. The galaninergic system consists of a number of bioactive peptides with a highly plastic expression pattern and three different receptors. The lack of receptor subtype selective ligands and antibodies have severely hampered the charac-terization of this system. Therefore, most of the knowledge has been drawn from experiments with transgenic animals, which has given some major conclusions, despite the compensatory effects seen in several animal studies. Therefore, the production of subtype selective ligands is of great importance to delineate the galanin system and slowly experimental data from receptor subtype selective ligand trials is emerging. This thesis aims at studying galanin receptor-ligand interactions and to increase and improve the utilized tools in the galanin research field, espe-cially the development of novel galanin receptor subtype selective ligands. Paper I demonstrates the potential to N-terminally extend galanin ana-logues and the successful development of a galanin receptor 2 (GalR2) selec-tive ligand. In addition, a cell line stably expressing galanin receptor 3 (GalR3) was developed, to improve and simplify future evaluations of sub-type selective galanin ligands. Paper II measures the affinities of M617 and M871 to GalR3 and demon-strates that M871 preferentially binds GalR2. Furthermore, the relatively high affinity of M617 was evaluated by assessing the contribution in recep-tor interaction of individual amino acid residues in the C-terminal part of the M617. In conclusion, this thesis has provided a novel design strategy for galanin receptor ligands and increased the understanding of ligand interactions with the GalR3. Furthermore, M1145 has together with new analogues proven to be highly GalR2 specific, holding promises to future delineation of the galaninergic system as a therapeutic target.

Galanin

GALP

GPCR

Agonist

GalR

Chimeric peptide

Inositol phosphate production

Receptor specificity

Natural Sciences

Naturvetenskap