A novel structural class of K+-channel blocking toxin from the scorpion Pandinus imperator

Abstract

A novel peptide was purified and characterized from the venom of the scorpion Pandinus imperator. Analysis of its primary structure reveals that it belongs to a new structural class of K⁺-channel blocking peptide, composed of only 35 amino acids, but cross-linked by four disulphide bridges. It is 40, 43 and 46% identical to noxiustoxin, margatoxin and toxin 1 of Centruroides limpidus respectively. However, it is less similar (26 to 37% identity) to toxins from scorpions of the geni Leiurus, Androctonus and Buthus. The disulphide pairing was determined by sequencing heterodimers produced by mild enzymic hydrolysis. They are formed between Cys-4–Cys-25, Cys-10–Cys-30, Cys-14–Cys-32 and Cys-20–Cys-35. Three-dimensional modelling, using the parameters determined for charybdotoxin, showed that is it possible to accommodate the four disulphide bridges in the same general structure of the other K⁺-channel blocking peptides. The new peptide (Pi1) blocks Shaker B K⁺ channels reversibly. It also displaces the binding of a known K⁺-channel blocker, [¹²⁵I]noxiustoxin, from rat brain synaptosomal membranes with an IC₅₀ of about 10 nM.