Isolation and purification of acetylcholine receptor proteins by affinity chromatography

Abstract

In order to further molecular investigations on the binding capacity of acetylcholine receptors, a method was developed for the affinity chromatography of the nicotinic acetylcholine receptor. Reversibly binding cholinergic ligand groups were used as affinity ligands, instead of the well known snake venom α-toxins. These ligands are small in size, chemically well defined and fixed to long spacer chains (at least 40 nm). One ligand, with a pharmacologically stabilizing effect on the receptor, was a derivative of gallamine. Another, with a depolarizing effect, resembled carbamoylcholine and a third was a derivative of decamethonium. The receptor proteins were isolated from Torpedo marmorata electric organs. Preparation included solubilization with a non-ionic detergent, alkaline treatment to extract peripheral membrane proteins and affinity purification. The receptor proteins eluted from the three affinity resins were identical in their assembly of subunits (α, ß, γ and δ) but of different purity. Receptor proteins were obtained on a large scale within a short time and under mild conditions for elution with the affinity ligands of the decamethonium or the gallamine type. This was a considerable advantage compared to the use of α-bungarotoxin.