Locations of the beta1 transmembrane helices in the BK potassium channel |
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| Authors: | Liu Guoxia Zakharov Sergey I Yang Lin Wu Roland S Deng Shi-Xian Landry Donald W Karlin Arthur Marx Steven O |
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| Affiliation: | Division of Cardiology, Department of Medicine, College of Physicians and Surgeons, Columbia University, New York, NY 10032, USA. |
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| Abstract: | BK channels are composed of α-subunits, which form a voltage- and Ca2+-gated potassium channel, and of modulatory β-subunits. The β1-subunit is expressed in smooth muscle, where it renders the BK channel sensitive to [Ca2+]i in a voltage range near the smooth-muscle resting potential and slows activation and deactivation. BK channel acts thereby as a damped feedback regulator of voltage-dependent Ca2+ channels and of smooth muscle tone. We explored the contacts between α and β1 by determining the extent of endogenous disulfide bond formation between cysteines substituted just extracellular to the two β1 transmembrane (TM) helices, TM1 and TM2, and to the seven α TM helices, consisting of S1–S6, conserved in all voltage-dependent potassium channels, and the unique S0 helix, which we previously concluded was partly surrounded by S1–S4. We now find that the extracellular ends of β1 TM2 and α S0 are in contact and that β1 TM1 is close to both S1 and S2. The extracellular ends of TM1 and TM2 are not close to S3–S6. In almost all cases, cross-linking of TM2 to S0 or of TM1 to S1 or S2 shifted the conductance–voltage curves toward more positive potentials, slowed activation, and speeded deactivation, and in general favored the closed state. TM1 and TM2 are in position to contribute, in concert with the extracellular loop and the intracellular N- and C-terminal tails of β1, to the modulation of BK channel function. |
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| Keywords: | auxiliary subunit cysteine substitution disulfide cross-linking electrophysiology mslo1 |
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