3-D structural and functional characterization of the purified KATPchannel complex Kir6.2-SUR1

Abstract

ATP‐sensitive potassium (KATP) channels conduct potassium ions across cell membranes and thereby couple cellular energy metabolism to membrane electrical activity. Here, we report the heterologous expression and purification of a functionally active KATP channel complex composed of pore‐forming Kir6.2 and regulatory SUR1 subunits, and determination of its structure at 18 Å resolution by single‐particle electron microscopy. The purified channel shows ATP‐ase activity similar to that of ATP‐binding cassette proteins related to SUR1, and supports Rb+ fluxes when reconstituted into liposomes. It has a compact structure, with four SUR1 subunits embracing a central Kir6.2 tetramer in both transmembrane and cytosolic domains. A cleft between adjacent SUR1s provides a route by which ATP may access its binding site on Kir6.2. The nucleotide‐binding domains of adjacent SUR1 appear to interact, and form a large docking platform for cytosolic proteins. The structure, in combination with molecular modelling, suggests how SUR1 interacts with Kir6.2.