Fig. 1.
(A) Reversal potentials for K+, Na+, and RMP of CONTROL HL-1 cells and those expressing K2P1-K274E under normal and hypokalemic conditions. EK and ENA were calculated with 4 mM K+ and 1 mM K+ at 20°C, and RMP for mouse HL-1 cells were under control conditions or expressing K2P1-K274E channels from Ma et al. (5) showing depolarization to −63 mV, with hypokalemia in the latter case. (B) K2P0 subunit and homology model. (Left) Single subunit topology showing M1 to M4 (transmembrane segments 1 to 4) and the two P loops (P1, P2). K274, the residue mutated in K2P1 to avoid sumoylation, is indicated. (Middle) Homology model for the dimeric channel built on the basis of pairs of residues that interact (21) viewed from outside the cell and indicating a K+ ion (purple) in the pore shows bilateral symmetry with a fourfold symmetric selectivity filter. One subunit is colored in purple, and the other is blue. The P1 pore helices are in yellow, and P2 pore helices are in green. (Right) Side view of domain I of both subunits. (C) Signature sequences of P1 loop and P2 loop in K2P0 (dORK1), K2P1, K2P2, K2P3 (TASK1), K2P9 (TASK3), K2P10 (TREK2), and K2P13 (THIK1). Although most K2P channels have an I in the P1 loop, the T in K2P1 (highlighted yellow) is identified by Ma et al. as important for its ability to undergo dynamic changes in ion selectivity with hypokalemia. Single-letter abbreviations for the amino acids are standard. (D) K2P1-K274E channels are expressed in CHO cells, and external K+ decreased from 5 mM to nominally no K+ (0K). Changes in RMP (ΔErev) reveal rapid hyperpolarization (phase 1) followed by slow paradoxical depolarization (phase 2) [from Fig. 6A in (5)]. (E) Three classes of KcsA filter structure determined with the lower activation gate in the open configuration from (57). (Left) The filter with 4 K+ binding sites conducts K+ (K flux). (Middle) The intermediate state shows three K+-binding sites in the filter and is proposed in this essay to be similar to the Na+-conductive state in K2P1-K274E with hypokalemia (Na+ flux proposed). (Right) The nonconducting, C-type inactivated filter shows two K+-binding sites.