The voltage-dependent gating mechanism of KAT1 inward rectifier potassium channels was studied using single channel current recordings from Xenopus oocytes injected with KAT1 mRNA. The inward rectification properties of KAT1 result from an intrinsic gating mechanism in the KAT1 channel protein, not from pore block by an extrinsic cation species. KAT1 channels activate with hyperpolarizing potentials from −110 through −190 mV with a slow voltage-dependent time course. Transitions before first opening are voltage dependent and account for much of the voltage dependence of activation, while transitions after first opening are only slightly voltage dependent. Using burst analysis, transitions near the open state were analyzed in detail. A kinetic model with multiple closed states before first opening, a single open state, a single closed state after first opening, and a closed-state inactivation pathway accurately describes the single channel and macroscopic data. Two mutations neutralizing charged residues in the S4 region (R177Q and R176L) were introduced, and their effects on single channel gating properties were examined. Both mutations resulted in depolarizing shifts in the steady state conductance–voltage relationship, shortened first latencies to opening, decreased probability of terminating bursts, and increased burst durations. These effects on gating were well described by changes in the rate constants in the kinetic model describing KAT1 channel gating. All transitions before the open state were affected by the mutations, while the transitions after the open state were unaffected, implying that the S4 region contributes to the early steps in gating for KAT1 channels.
Voltage-dependent Gating of Single Wild-Type and S4 Mutant KAT1 Inward Rectifier Potassium Channels
Address correspondence to Richard W. Aldrich, Dept. of Molecular and Cellular Physiology, Beckman Center B171, Stanford, CA 94305-5426. Fax: 650-725-4463; E-mail: [email protected]
P.C. Zei was supported by an National Institute of General Medical Sciences Training Grant (GM07365) for the Medical Scientist Training Program. R.W. Aldrich is an investigator with the Howard Hughes Medical Institute.
Dr. Zei's current address is Dept. of Internal Medicine, Brigham and Women's Hospital, 75 Francis Street, Boston, MA 02115.
Paul C. Zei, Richard W. Aldrich; Voltage-dependent Gating of Single Wild-Type and S4 Mutant KAT1 Inward Rectifier Potassium Channels . J Gen Physiol 1 December 1998; 112 (6): 679–713. doi: https://doi.org/10.1085/jgp.112.6.679
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