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Publication Abstract from PubMed

Regulation of pancreatic K(ATP) channels involves orchestrated interactions of their subunits, Kir6.2 and SUR1, and ligands. Previously we reported K(ATP) channel cryo-EM structures in the presence and absence of pharmacological inhibitors and ATP, focusing on the mechanisms by which inhibitors act as pharmacological chaperones of K(ATP) channels (Martin et al., 2019). Here we analyzed the same cryo-EM datasets with a focus on channel conformational dynamics to elucidate structural correlates pertinent to ligand interactions and channel gating. We found pharmacological inhibitors and ATP enrich a channel conformation in which the Kir6.2 cytoplasmic domain is closely associated with the transmembrane domain, while depleting one where the Kir6.2 cytoplasmic domain is extended away into the cytoplasm. This conformational change remodels a network of intra- and inter-subunit interactions as well as the ATP and PIP(2) binding pockets. The structures resolved key contacts between the distal N-terminus of Kir6.2 and SUR1's ABC module involving residues implicated in channel function and showed a SUR1 residue, K134, participates in PIP(2) binding. Molecular dynamics simulations revealed two Kir6.2 residues, K39 and R54, that mediate both ATP and PIP(2) binding, suggesting a mechanism for competitive gating by ATP and PIP(2).

Ligand-mediated Structural Dynamics of a Mammalian Pancreatic K(ATP) Channel.,Sung MW, Driggers CM, Mostofian B, Russo JD, Patton BL, Zuckerman DM, Shyng SL J Mol Biol. 2022 Oct 15;434(19):167789. doi: 10.1016/j.jmb.2022.167789. Epub 2022 , Aug 11. PMID:35964676^[1]

From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine.