State-independent Block of BK Channels by an Intracellular Quaternary Ammonium

doi:10.1085/jgp.200609579

Published online Aug 28 2006. doi:10.1085/jgp.200609579
The Rockefeller University Press, 0022-1295 $8.00
JGP, Volume 128, Number 3, 347-364

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ARTICLE

State-independent Block of BK Channels by an Intracellular Quaternary Ammonium

Christina M. Wilkens and Richard W. Aldrich

Department of Molecular and Cellular Physiology, Stanford University, Stanford, CA 94305
Section of Neurobiology, University of Texas at Austin, Austin, TX 78705

Correspondence to Richard W. Aldrich: raldrich{at}mail.utexas.edu

Intracellular blockade by quaternary ammonium (QA) moleculesof many potassium channels is state dependent, where the requirementfor channel opening is evidenced by a time-dependent componentof block in the macroscopic record. Whether this is the casefor Ca²⁺- and voltage-activated potassium (BK) channels, however,remains unclear. Previous work (Li, W., and R.W. Aldrich. 2004.J. Gen. Physiol. 124:43–57) tentatively proposed a state-dependent,trapping model, but left open the possibility of state-independentblock. Here, we found BK channel blockade by a novel QA derivative,bbTBA, was time dependent, raising the possibility of state-dependent,open channel block. Alternatively, the observed voltage dependenceof block could be sufficient to explain time-dependent block.We have used steady-state and kinetic measurements of bbTBAblockade in order to discriminate between these two possibilities.bbTBA did not significantly slow deactivation kinetics at potentialsbetween –200 and –100 mV, suggesting that channelscan close unhindered by bound bbTBA. We further find no evidencethat bbTBA is trapped inside BK channels after closing. Measurementsof steady state fractional block at +40 mV revealed a 1.3-foldchange in apparent affinity for a 33-fold change in P_o, in strikingcontrast to the 31-fold change predicted by state-dependentblock. Finally, the appearance of a third kinetic componentof bbTBA blockade at high concentrations is incompatible withstate-dependent block. Our results suggest that access of intracellularbbTBA to the BK channel cavity is not strictly gated by channelopening and closing, and imply that the permeation gate forBK channels may not be intracellular.

Abbreviations used in this paper: bbTBA, N-(4-[benzoyl]benyl)-N,N,N-tributylammoniumbromide; BK, large-conductance Ca²⁺- and voltage-activated potassium;C10, decyltriethylammonium; CNG, cyclic nucleotide-gated; P_o,open probability; QA, quaternary ammonium; TBA, tetrabutylammonium.

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