Thermal perturbation studies of membrane-bound acetylcholine receptor from Torpedo: Effects of cholinergic ligands and membrane perturbants

Abstract

Thermal perturbation techniques have been used to probe structural features of the nicotinic acetylcholine receptor (AcChR). The information obtained from differential scanning calorimetry (DSC) of AcChR membranes (M. C. Farach and M. Martinez-Carrion (1983) J. Biol. Chem. 258, 4176) in the absence and in the presence of cholinergic ligands and local anesthetics, is comparable to that obtained from a simpler technique of heat inactivation of the α-bungarotoxin (α-Bgt) binding sites on the AcChR protein in similar samples. When AcChR membranes are heated at ~ 1 °C/min, heat inactivation of toxin binding sites has a characteristic T 50 value (temperature at which 50% of the initial capacity to bind α-Bgt remains) of ~60 °C. When heated at a constant temperature during increasing periods of time, the rate at which heat inactivation occurs is also characteristic of the temperature chosen for the experiment. The above thermal parameters are also sensitive to perturbation of the AcChR membrane matrix by the presence of subsolubilizing concentrations of detergents. Moreover, elimination of detergents by dialysis allows us to evaluate the reversibility or irreversibility of AcChR thermal destabilization induced by detergents or other membrane perturbants. Under the experimental conditions used, structural destabilization induced by octylglucoside or cholate can be fully reversed by detergent dialysis, while that exerted by deoxycholate cannot. “Thermal gel” analysis of the aggregation of AcChR subunits induced by heat (G. Soler, J. R. Mattingly, and M. Martinez-Carrion (1984) Biochemistry 23, 4630) has also been used to assess the effects of detergent presence on the AcChR protein. When deoxycholate is used as the perturbing agent, there is a particularly effective sulfhydryl-mediated aggregation of the γ-δ subunit group, which appears to correlate with the irreversible destabilization of α-Bgt binding sites induced by that detergent.