Intracellular domains interactions and gated motions of IKS potassium channel subunits |
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| Authors: | Yoni Haitin Reuven Wiener Dana Shaham Asher Peretz Enbal Ben‐Tal Cohen Liora Shamgar Olaf Pongs Joel A Hirsch Bernard Attali |
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| Affiliation: | 1. Department of Physiology and Pharmacology, Sackler Faculty of Medicine, Tel Aviv University, Tel Aviv, Israel;2. Department of Biochemistry, Faculty of Life Sciences, Tel Aviv University, Tel Aviv, Israel;3. Zentrum für Molekulare Neurobiologie, Universitaet Hamburg, Hamburg, Germany |
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| Abstract: | Voltage‐gated K+ channels co‐assemble with auxiliary β subunits to form macromolecular complexes. In heart, assembly of Kv7.1 pore‐forming subunits with KCNE1 β subunits generates the repolarizing K+ current IKS. However, the detailed nature of their interface remains unknown. Mutations in either Kv7.1 or KCNE1 produce the life‐threatening long or short QT syndromes. Here, we studied the interactions and voltage‐dependent motions of IKS channel intracellular domains, using fluorescence resonance energy transfer combined with voltage‐clamp recording and in vitro binding of purified proteins. The results indicate that the KCNE1 distal C‐terminus interacts with the coiled‐coil helix C of the Kv7.1 tetramerization domain. This association is important for IKS channel assembly rules as underscored by Kv7.1 current inhibition produced by a dominant‐negative C‐terminal domain. On channel opening, the C‐termini of Kv7.1 and KCNE1 come close together. Co‐expression of Kv7.1 with the KCNE1 long QT mutant D76N abolished the K+ currents and gated motions. Thus, during channel gating KCNE1 is not static. Instead, the C‐termini of both subunits experience molecular motions, which are disrupted by the D76N causing disease mutation. |
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| Keywords: | channel assembly FRET gating Kv7 potassium channel |
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