EFFECTS OF PHOSPHOLIPASE-A2 ON THE BINDING AND ION PERMEABILITY CONTROL PROPERTIES OF THE ACETYLCHOLINE-RECEPTOR

An acidic phospholipase A2 (EC 3.1.1.4) isolated from Naja naja siamensis venom blocks acetylcholine receptor function in excitable post synaptic membrane vesicles from Torpedo californica electroplax. Specifically, the phospholipase acts catalytically to prevent the large increase in sodium efflux induced by carbamylcholine. The efflux inhibition can be correlated with specific hydrolysis of phospholipids in the membrane. During the time course of inhibition, the binding affinity of the receptor for carbamylcholine increases 10-fold, a phenomenon associated with receptor desensitization. Prolonged treatment of the membranes with phospholipase A2 causes nonspecific lysis of the vesicles. Incorporation of unsaturated fatty acids or lysophosphatidylcholine into Torpedo membranes also blocks carbamylcholine-induced sodium efflux. The fatty acids have no effect on the binding affinity of the receptor, and lysophosphatidylcholine causes a small decrease in receptor affinity for carbamylcholine. Lysophosphatidylethanolamine and most saturated fatty acids have no direct effect on sodium efflux, but the lysophosphatides cause vesicle lysis. All of the inhibitory effects of the phospholipase and the fatty acids can be reversed and/or prevented by treatment of the vesicles with bovine serum albumin. © 1979.