The nicotinic acetylcholine receptor (AChR) from Torpedo californica electric organ has a subunit stoichiometry of alpha2 beta gamma delta. Its two acetylcholine-binding domains are located at the alpha gamma and alpha delta subunit interfaces and display differing affinities for certain competitive antagonists such as the cone snail venom-derived peptides known as alpha-conotoxins. The long-term objective of this research is to better understand the molecular structure of these alpha-conotoxin binding sites. The hypothesis to be tested in this project states: The segments of the gamma and delta subunits shown to contribute to the alpha-conotoxin MI binding sites on the Torpedo AChR where the residues are gamma K34/deltaS36, gammaY111/deltaR113 and gammaH172/deltaI178. Differences in alpha- conotoxin affinities result from residue differences at those positions. This project will combine radiolabelled conotoxin binding studies and electrophysiological studies on a cell line expressing Torpedo californica AchR.
The specific aims of the project are: A. To synthesize radioiodinated alpha-conotoxins GI and EI to be utilized in direct binding studies as two novel ligands specific for the alpha gamma and alpha delta sites, respectively. B. To characterize equilibrium binding and binding kinetics of 125I- GI and 125I-EI to AchR prepared fromelectric organ tissue. C. To characterize binding of 125I-GI and 125I-EI to cell-expressed native (alpha2 betagamma2 and alpha2 betagamma2) AchR using both wild type and mutant gamma and delta subunits. The gamma/delta interchange mutants to be studied will include: gammaK34S, deltaS36K, gammaY111R, deltaR113Y, gammaH172I and deltaI178H. D. To use patch-clamp methodology to characterize agonist binding and its inhibition by conotoxins GI and EI to the same cell-expressed AchR molecules to be studied with direct radioligand binding. This research should lad to a better understanding of the sructurally similar vertebrate muscle AchR and of neuromuscular disease processes involving this molecule.
Showing the most recent 10 out of 51 publications