A point mutation in the maxi-K clone dSlo forms a high affinity site for charybdotoxin

This work investigated the interaction of CTX with two cloned analogues of the maxi-K channel, dSlo and hSlo. dSlo has been reported to be CTX insensitive. Single channel analysis revealed that dSlo was weakly blocked by the toxin, with a very high K-D of 5.8 mu M. The hSlo channels bound wild-type, recombinant CTX with high affinity and in a bimolecular fashion, and displayed a half-blocking concentration (K-D) of 36 nM. A glutamate residue was substituted for the wild-type threonine at position 290 in dSlo. The mutant channel was expressed in COS-7 cells and reconstituted into lipid bilayers for single channel analysis. The mutant channel bound wild-type, recombinant CTX with high affinity and in a bimolecular fashion, and displayed a half-blocking concentration (K-D) of 23 nM. Changing just one residue from threonine to glutamate at position 290 in dSlo changed the affinity of the channel's CTX-receptor over 100-fold. Kinetic analysis revealed that this large increase in affinity was due to decreasing the dissociation rate of the toxin. These results suggest that a CTX receptor does exist in the dSlo channel mouth and that the threonine at position 290 destabilizes the toxin on the binding site. (C) 1999 Elsevier Science Ltd. All rights reserved.