Affinity for phosphatidylinositol 4,5-bisphosphate determines muscarinic agonist sensitivity of Kv7 K+ channels

doi:10.1085/jgp.200910313

Published online
doi:10.1085/jgp.200910313
The Journal of General Physiology, Vol. 134, No. 5, 437-448
The Rockefeller University Press, 0022-1295 $30.00
© Hernandez et al.

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Article

Affinity for phosphatidylinositol 4,5-bisphosphate determines muscarinic agonist sensitivity of Kv7 K⁺ channels

Ciria C. Hernandez¹, Björn Falkenburger², and Mark S. Shapiro¹

¹ Department of Physiology, University of Texas Health Science Center, San Antonio, TX 78229
² Department of Physiology and Biophysics, University of Washington School of Medicine, Seattle, WA 98195

Correspondence to Mark S. Shapiro: shapirom{at}uthscsa.edu

Kv7 K⁺-channel subunits differ in their apparent affinity forPIP₂ and are differentially expressed in nerve, muscle, andepithelia in accord with their physiological roles in thosetissues. To investigate how PIP₂ affinity affects the responseto physiological stimuli such as receptor stimulation, we exposedhomomeric and heteromeric Kv7.2, 7.3, and 7.4 channels to arange of concentrations of the muscarinic receptor agonist oxotremorine-M(oxo-M) in a heterologous expression system. Activation of M₁receptors by oxo-M leads to PIP₂ depletion through G_q and phospholipaseC (PLC). Chinese hamster ovary cells were transiently transfectedwith Kv7 subunits and M₁ receptors and studied under perforated-patchvoltage clamp. For Kv7.2/7.3 heteromers, the EC₅₀ for currentsuppression was 0.44 ± 0.08 µM, and the maximalinhibition (Inhib_max) was 74 ± 3% (n = 5–7). Whentonic PIP₂ abundance was increased by overexpression of PIP5-kinase, the EC₅₀ was shifted threefold to the right (1.2 ±0.1 µM), but without a significant change in Inhib_max(73 ± 4%, n = 5). To investigate the muscarinic sensitivityof Kv7.3 homomers, we used the A315T pore mutant (Kv7.3^T) thatincreases whole-cell currents by 30-fold without any changein apparent PIP₂ affinity. Kv7.3^T currents had a slightly right-shiftedEC₅₀ as compared with Kv7.2/7.3 heteromers (1.0 ± 0.8µM) and a strongly reduced Inhib_max (39 ± 3%).In contrast, the dose–response curve of homomeric Kv7.4channels was shifted considerably to the left (66 ± 8nM), and Inhib_max was slightly increased (81 ± 6%, n= 3–4). We then studied several Kv7.2 mutants with alteredapparent affinities for PIP₂ by coexpressing them with Kv7.3^Tsubunits to boost current amplitudes. For the lower affinity(Kv7.2 (R463Q)/Kv7.3^T) or higher affinity (Kv7.2 (R463E)/Kv7.3^T)channels, the EC₅₀ and Inhib_max were similar to Kv7.4 or Kv7.3^Thomomers (0.12 ± 0.08 µM and 79 ± 6% [n= 3–4] and 0.58 ± 0.07 µM and 27 ±3% [n = 3–4], respectively). The very low-affinity Kv7.2(R452E, R459E, and R461E) triple mutant was also coexpressedwith Kv7.3^T. The resulting heteromer displayed a very low EC₅₀for inhibition (32 ± 8 nM) and a slightly increased Inhib_max(83 ± 3%, n = 3–4). We then constructed a cellularmodel that incorporates PLC activation by oxo-M, PIP₂ hydrolysis,PIP₂ binding to Kv7-channel subunits, and K⁺ current throughKv7 tetramers. We were able to fully reproduce our data andextract a consistent set of PIP₂ affinities.

C.C. Hernandez's present address is Dept. of Neurology, VanderbiltUniversity Medical Center, Nashville, TN 37232.

Abbreviations: CHO, Chinese hamster ovary; FRET, fluorescence resonance energy transfer; oxo-M, oxotremorine-M; PI, phosphatidylinositol; WT, wild type

© 2009 Hernandez et al.
This article is distributed under the terms of an Attribution–Noncommercial–Share Alike–No Mirror Sites license for the first six months after the publication date (see http://www.jgp.org/misc/terms.shtml). After six months it is available under a Creative Commons License (Attribution–Noncommercial–Share Alike 3.0 Unported license, as described at http://creativecommons.org/licenses/by-nc-sa/3.0/).

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