Tail End of the S6 Segment: Role in Permeation in Shaker Potassium Channels

doi:10.1085/jgp.20028611

Published 24 June 2002. doi:10.1085/jgp.20028611

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© Rockefeller University Press, 0022-1295/2002/7/87/ $5.00
Journal of General Physiology, Volume 120, Number 1, July 2002 87-97

Article

Tail End of the S6 Segment

Role in Permeation in Shaker Potassium Channels

Shinghua Ding and Richard Horn

Department of Physiology, Jefferson Medical College, Philadelphia, PA 19107

Address correspondence to Dr. Richard Horn, Department of Physiology, Jefferson Medical College, 1020 Locust Street, Philadelphia, PA 19107. Fax: (215) 503-2073; E-mail: richard.horn{at}tju.edu

The permeation pathway in voltage-gated potassium channels hasnarrow constrictions at both the extracellular and intracellularends. These constrictions might limit the flux of cations fromone side of the membrane to the other. The extracellular constrictionis the selectivity filter, whereas the intracellular bundlecrossing is proposed to act as the activation gate that opensin response to a depolarization. This four-helix bundle crossingis composed of S6 transmembrane segments, one contributed byeach subunit. Here, we explore the cytoplasmic extension ofthe S6 transmembrane segment of Shaker potassium channels, justdownstream from the bundle crossing. We substituted cysteinefor each residue from N482 to T489 and determined the amplitudesof single channel currents and maximum open probability (P_o,max)at depolarized voltages using nonstationary noise analysis.One mutant, F484C, significantly reduces P_o,max, whereas Y483C,F484C, and most notably Y485C, reduce single channel conductance( ${gamma}$ ). Mutations of residue Y485 have no effect on the Rb⁺/K⁺ selectivity,suggesting a local effect on ${gamma}$ rather than an allosteric effecton the selectivity filter. Y485 mutations also reduce pore blockby tetrabutylammonium, apparently by increasing the energy barrierfor blocker movement through the open activation gate. ReplacingRb⁺ ions for K⁺ ions reduces the amplitude of single channelcurrents and makes ${gamma}$ insensitive to mutations of Y485. Theseresults suggest that Rb⁺ ions increase an extracellular energybarrier, presumably at the selectivity filter, thus making itrate limiting for flux of permeant ions. These results indicatethat S6_T residues have an influence on the conformation of theopen activation gate, reflected in both the stability of theopen state and the energy barriers it presents to ions.

Key Words: nonstationary noise analysis • selectivity • rubidium • pore block

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