Ligand-induced changes in membrane-bound acetylcholine receptor observed by ethidium fluorescence. 1. Equilibrium studies.

The interactions between the fluorescent probe ethidium and acetylcholine receptor enriched membranes from Torpedo californica are described. One class of saturable ethidium sites was blocked by alpha-bungarotoxin and therefore reflects direct binding to the receptor (Kd approximately 3 micrometers; stoichiometry--one ethidium site per two alpha-bungarotoxin sites). The second class of sites was nonsaturable and unaffected by alpha-toxin and was therefore considered nonspecific in nature. The increase in fluorescence intensity observed upon addition of cholinergic agonists and antagonists accurately reflects the dissociation constant and stoichiometry of the high-affinity receptor sites for these ligands. The effects of local anaesthetics are complex in nature and depend on the structure of the ligand. For carbamylcholine, the increase in flourescence intensity was due to an increase in the quantum yield of the dye bound to the membrane rather than a dye uptake. In general, ethidium appears not to strongly alter the properties of the membrane-bound acetylcholine receptor and can therefore be profitably used as a spectroscopic probe.