Blockade of a KCa channel with synthetic peptides from noxiustoxin: A K+ channel blocker

Using the outside-out configuration of the patch-clamp method, we studied the effect of several synthetic peptides corresponding to various segments from the N-terminal region of noxiustoxin (NTX) on single Ca²⁺-activated K⁺ (K_Ca) channels of small conductance obtained from cultured bovine aortic endothelial cells. These peptides induced diverse degrees of fast blockade in the endothelial K_Ca channel. The most effective blockers were the peptides NTX_1–39 (IC₅₀=0.5 m) and NTX_1–20 comprising the first 20 amino acids from the native toxin (IC₅₀ 5 m), while less effective was the hexapeptide NTX_1–6, from the first six amino acid residues of NTX (IC₅₀ = 500 m). This was the minimum sequence required to block the channel.By testing overlapping sequences from the entire molecule, specially those corresponding to the N-terminal region of NTX, we have been able to determine their different apparent affinities for the K_Ca channel. Synthetic peptides from the C-terminal region produced no effect on the K_Ca channel at the concentrations tested (up to 1 mm). These results confirm that in the N-terminal region of the NTX is located part of the sequence that may recognize K⁺ channels, as we have suggested previously from in vivo experiments. The blockade induced by native NTX was poorly affected by changes in membrane potential; however, the blockage induced by synthetic peptides lacking the C-terminal region was partially released by depolarization.This study was supported by grant HL-45880 from the National Institutes of Health, and by grant 900946 from the American Heart Association to D.L.K. and Howard Hughes Medical Institute No. 75191-527104, CONACyT-Mexico No. 0018-N9105, and DGAPA-UNAM No. IN 202689 to L.D.P. This work was partially supported by a Grant-in-aid No. 92014250 from the American Heart Association to L.V.