Membrane associated receptors and ion channels serve as the molecular basis for electrical signaling, selective information transfer between excitable cells, and controlling the activity of the nervous system. Contrary to their biological significance, very little is known about how these proteins recognize neurotransmitters and ligands at the molecular level. The PI is interested in developing a novel methodology for revealing molecular features governing ligand-receptor recognition using modern high- field NMR spectroscopy. The methodology focuses on 1) designing relatively small model systems for ligand-receptor complexes, 2) developing a chemical strategy for synthesizing such models in the case of ion channels, the ability to transport ions is retained, and 3) applying both solution and solid-state NMR techniques to free ligands in aqueous solution, model channels in detergent micelles, and ligand-receptor complexes in lipids. Conotoxins, peptide neurotoxins from Conus snails, are ideal molecules for providing a model system for studying ligand-receptor interactions. They bind these membrane proteins with dissociation constants in nanomolar range, and there are potentially tens of thousands of these peptide ligands. The proposed project is based on exploiting their extraordinary specificity in developing model systems suitable for structural studies by NMR methods. A novel ligand (psi-conotoxin), which is a non-competitive inhibitor of the nicotinic acetylcholine receptor, has been recently discovered by the PI. The present experimental evidence strongly suggests that the binding region is at the carboxyl ends of the second transmembrane domains (M2). Such model channel has been chemically synthesized, and structure determination of the channel and its ligand bound complex will be the main focus of this proposal. Successful execution of the research will provide leads for rational drug design as well as for engineering subtype specific ligands targeted to specific receptors and ion channels.
Shon, K J; Olivera, B M; Watkins, M et al. (1998) mu-Conotoxin PIIIA, a new peptide for discriminating among tetrodotoxin-sensitive Na channel subtypes. J Neurosci 18:4473-81 |
Mitchell, S S; Shon, K J; Foster, M P et al. (1998) Three-dimensional solution structure of conotoxin psi-PIIIE, an acetylcholine gated ion channel antagonist. Biochemistry 37:1215-20 |
Shon, K J; Koerber, S C; Rivier, J E et al. (1997) Three-dimensional solution structure of alpha-conotoxin MII, an alpha3beta2 neuronal nicotinic acetylcholine receptor-targeted ligand. Biochemistry 36:15693-700 |