DIFFERENTIAL ROLES OF S6 DOMAIN HINGES IN THE GATING OF KCNQ POTASSIUM CHANNELS

doi:10.1529/biophysj.105.067165

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ELECTROPHYSIOLOGY

DIFFERENTIAL ROLES OF S6 DOMAIN HINGES IN THE GATING OF KCNQ POTASSIUM CHANNELS

Guiscard Seebohm ¹^*, Nathalie Strutz-Seebohm ¹, Oana Ureche ¹, Ravshan Baltaev ¹, Angelika Lampert ², Ganna Korniychuk ¹, Kaichiro Kamiya ³, Thomas V Wuttke ⁴, Holger Lerche ⁴, Michael C Sanguinetti ⁵ and Florian Lang ¹

¹ Physiologisches Institut I, Tübingen, Germany
² Center for Neuroscience and Regeneration Research, Yale University School of Medicine
³ Department of Circulation, Nagoya, Japan
⁴ Departments of Applied Physiology and Neurology of the University of Ulm, D-89081 Ulm
⁵ Department of Physiology and Nora Eccles Harrison Cardiovascular Research & Training Institute, Univ

^* To whom correspondence should be addressed. E-mail: guiscard.seebohm{at}gmx.de.

Submitted on May 23, 2005
Revised on June 18, 2005
Accepted on 8 November 2005

Abstract
Voltage-gated K+ channel activation is proposed to result fromsimultaneous bending of all S6 segments away from the centralaxis, enlarging the aperture of the pore sufficiently to permitdiffusion of K+ into the water-filled central cavity. The hingeposition for the bending motion of each S6 segment is proposedto be a Gly residue and/or a Pro-Val-Pro motif in Kv1-Kv4 channels.The KCNQ1 (Kv7.1) channel has Ala-336 in the Gly-hinge positionand Pro-Ala-Gly. Here we show that mutation of Ala-336 to Glyin KCNQ1 increased current amplitude and shifted the voltagedependence of activation to more negative potentials, consistentwith facilitation of hinge activity that favors the open state.In contrast, mutation of Ala-336 to Cys or Thr shifted the voltagedependence of activation to more positive potentials and reducedcurrent amplitude. Mutation of the putative Gly hinge to Alain KCNQ2 (Kv7.2) abolished channel function. Mutation-dependentchanges in current amplitude, but not kinetics, were found inheteromeric KCNQ1/KCNE1 channels. Mutation of the Pro or Glyof the Pro-Ala-Gly motif to Ala abolished KCNQ1 function andintroduction of Gly infront of the Ala-mutations partially recoveredchannel function, suggesting that flexibility at the PAG isimportant for channel activation.

Key Words: KCNQ1, Xenopus oocyte, activation, gating, structure, voltage clamp

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