Binding of scorpion and sea anemone neurotoxins to a common site related to the action potential Na+ ionophore in neuroblastoma cells.

The protein neurotoxin II from the venom of the scorpion $\text{Androctonus}\text{australis}$ Hector was labeled with ¹²⁵I by the lactoperoxidase method to a specific radioactivity of about 100 μCi/μg without loss of biological activity. The labeled neurotoxin binds specifically to a single class of non intereacting binding sites of high affinity (K_D = 0.3 – 0.6 nM) and low capacity (4000 – 8000 sites/cell) to electrically excitable neuroblastoma cells. Relation of these sites to the action potential Na⁺ channel is derived from identical concentration dependence of scorpion toxin binding and increase in duration and amplitude of action potential. The protein neurotoxin II from the sea anemone $\text{Anemona sulcata}$ also affects the closing of the action potential Na⁺ ionophore in nerve axons. The unlabelled sea anemone toxin modifies ¹²⁵I-labeled scorpion toxin II binding to neuroblastoma cells by increasing the apparent K_D for labeled scorpion toxin without modification of the number of binding sites. It is concluded that both $\text{Androctonus}$ scorpion toxin II and $\text{Anemona}$ sea anemone toxin II interact competitively with a regulatory component of the action potential Na⁺ channel.