Simulating PIP₂-induced gating transitions in Kir6.2 channels

Abstract: ATP-sensitive potassium (KATP) channels consist of an inwardly rectifying K+ channel (Kir6.2) pore, to which four ATP-sensitive sulfonylurea receptor (SUR) domains are attached, thereby coupling K+ permeation directly to the metabolic state of the cell. Dysfunction is linked to neonatal diabetes and other diseases. K+ flux through these channels is controlled by conformational changes in the helix bundle region, which acts as a physical barrier for K+ flux. In addition, the G-loop, located in the cytoplasmic d… Show more

“…In the Kir6.2-CTD-up structure, in addition to Kir6.2 K67, W68, and R176 previously implicated in PIP 2 binding (Brundl et al, 2021; Cukras et al, 2002; Shyng and Nichols, 1998), K134 in TMD0 of SUR1 comes into close contact with the density corresponding to lipid headgroups (Fig.5A). To test whether this residue has a functional role, we mutated it to alanine and assessed PIP 2 sensitivity.…”

Ligand-mediated structural dynamics of a mammalian pancreatic K_ATP channel

“…In the Kir6.2-CTD-up structure, in addition to Kir6.2 K67, W68, and R176 previously implicated in PIP 2 binding (Brundl et al, 2021; Cukras et al, 2002; Shyng and Nichols, 1998), K134 in TMD0 of SUR1 comes into close contact with the density corresponding to lipid headgroups (Fig.5A). To test whether this residue has a functional role, we mutated it to alanine and assessed PIP 2 sensitivity.…”

Ligand-mediated structural dynamics of a mammalian pancreatic K_ATP channel