Beta-Bungarotoxin. Separation of two discrete proteins with different synaptic actions

Abstract

Beta-Bungarotoxin, a specific presynaptic blocking agent, was prepared in two stages from the crude venom of Bungarus multicinctus by ion-exchange chromatography on the weakly acidic ion exchanger, CM-Sephadex, and on the strongly acidic ion exchanger, sulphopropyl-Sephadex. By these procedures it was purified to a single protein, which was shown by reduction to contain two polypeptide chains with mol.wts. of less than 15000. During purification of beta-bungarotoxin three other proteins were isolated. Two of these proteins have similar molecular weights, subunit structure and physiological properties to the major protein component. This latter is referred to as beta-bungarotoxin, since it has the same physiological properties as those described for unpurified beta-bungarotoxin by other workers. The first protein has very different physiological effects and biochemical properties from beta-bungarotoxin. This protein has a single class of polypeptide chains with an apparent molecular weight that is lower than the main beta-bungarotoxin protein, and appears to block synaptic transmission by a predominantly postsynaptic effect. It has been suggested [Oberg & Kelly (1976) J. Neurobiol. 7, 129-141] that the action of beta-bungarotoxin depends on its phospholipase A activity; however, in this preparation of the toxin less than 50 muunits of phospholipase A activity were detected (1 unit of activity is the amount of enzyme forming 1 mumol of L-alpha-phosphatidylcholine/min per mg of protein).