
pmid: 28086082
ATP-sensitive potassium channels (KATP) couple intracellular ATP levels with membrane excitability. These channels play crucial roles in many essential physiological processes and have been implicated extensively in a spectrum of metabolic diseases and disorders. To gain insight into the mechanism of KATP, we elucidated the structure of a hetero-octameric pancreatic KATP channel in complex with a non-competitive inhibitor glibenclamide by single-particle cryoelectron microscopy to 5.6-Å resolution. The structure shows that four SUR1 regulatory subunits locate peripherally and dock onto the central Kir6.2 channel tetramer through the SUR1 TMD0-L0 fragment. Glibenclamide-bound SUR1 uses TMD0-L0 fragment to stabilize Kir6.2 channel in a closed conformation. In another structural population, a putative co-purified phosphatidylinositol 4,5-bisphosphate (PIP2) molecule uncouples Kir6.2 from glibenclamide-bound SUR1. These structural observations suggest a molecular mechanism for KATP regulation by anti-diabetic sulfonylurea drugs, intracellular adenosine nucleotide concentrations, and PIP2 lipid.
Mammals, Models, Molecular, ATP Binding Cassette Transporter, Subfamily B, Mesocricetus, Hydrolases, Cryoelectron Microscopy, Sulfonylurea Receptors, Kcnj11 Channel, Mice, Phosphoinositide Phospholipase C, KATP Channels, Animals, Humans, Potassium Channels, Inwardly Rectifying
Mammals, Models, Molecular, ATP Binding Cassette Transporter, Subfamily B, Mesocricetus, Hydrolases, Cryoelectron Microscopy, Sulfonylurea Receptors, Kcnj11 Channel, Mice, Phosphoinositide Phospholipase C, KATP Channels, Animals, Humans, Potassium Channels, Inwardly Rectifying
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