Structural Determinants for Functional Coupling Between the {beta} and {alpha} Subunits in the Ca2+-activated K+ (BK) Channel

doi:10.1085/jgp.200509370

Published online Jan 30 2006. doi:10.1085/jgp.200509370
The Rockefeller University Press, 0022-1295 $8.00
JGP, Volume 127, Number 2, 191-204

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ARTICLE

Structural Determinants for Functional Coupling Between the ß and ${alpha}$ Subunits in the Ca²⁺-activated K⁺ (BK) Channel

Patricio Orio¹, Yolima Torres¹^,2, Patricio Rojas¹^,3, Ingrid Carvacho¹^,4, Maria L. Garcia⁵, Ligia Toro⁶, Miguel A. Valverde⁷, and Ramon Latorre¹^,3

¹ Department of Biophysics and Molecular Physiology, Centro de Estudios Científicos, Valdivia 5110246, Chile
² Universidad del Valle, Cali, Colombia
³ Facultad de Ciencias, Universidad de Chile, Santiago 7800024, Chile
⁴ Universidad Austral de Chile, Valdivia, Chile
⁵ Department of Ion Channels, Merck Research Laboratories, Rahway, NJ 07065
⁶ Department of Anesthesiology University of California, Los Angeles, CA 90095
⁷ Grup de Canalopaties, Unitat de Senyalització Celular, Universitat Pompeu Fabra, Barcelona 08003, Spain

High conductance, calcium- and voltage-activated potassium (BK,MaxiK) channels are widely expressed in mammals. In some tissues,the biophysical properties of BK channels are highly affectedby coexpression of regulatory (ß) subunits. The mostremarkable effects of ß1 and ß2 subunitsare an increase of the calcium sensitivity and the slow downof channel kinetics. However, the detailed characteristics ofchannels formed by ${alpha}$ and ß1 or ß2 are dissimilar,the most remarkable difference being a reduction of the voltagesensitivity in the presence of ß1 but not ß2.Here we reveal the molecular regions in these ß subunitsthat determine their differential functional coupling with thepore-forming ${alpha}$ -subunit. We made chimeric constructs between ß1and ß2 subunits, and BK channels formed by ${alpha}$ and chimericß subunits were expressed in Xenopus laevis oocytes.The electrophysiological characteristics of the resulting channelswere determined using the patch clamp technique. Chimeric exchangeof the different regions of the ß1 and ß2subunits demonstrates that the NH₃ and COOH termini are themost relevant regions in defining the behavior of either subunit.This strongly suggests that the intracellular domains are crucialfor the fine tuning of the effects of these ß subunits.Moreover, the intracellular domains of ß1 are responsiblefor the reduction of the BK channel voltage dependence. Thisagrees with previous studies that suggested the intracellularregions of the ${alpha}$ -subunit to be the target of the modulation bythe ß1-subunit.

P. Orio and Y. Torres contributed equally to this work.

P. Orio's present address is the Instituto de Neurocienciasde Alicante, Universidad Miguel Hernandez-CSIC, 03550 Sant Joand'Alacant, Spain.

P. Rojas's present address is the Department of Anatomy andNeurobiology, Washington University School of Medicine, St.Louis, MO 63110

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