Affiliation:
1. State Key Laboratory of Membrane Biology College of Future Technology Institute of Molecular Medicine Peking University Beijing Key Laboratory of Cardiometabolic Molecular Medicine Beijing China
2. Peking‐Tsinghua Center for Life Sciences Peking University Beijing Beijing China
3. Academy for Advanced Interdisciplinary Studies Peking University Beijing Beijing China
4. National Biomedical Imaging Center Peking University Beijing Beijing China
Abstract
AbstractSUR2, similar to SUR1, is a regulatory subunit of the ATP‐sensitive potassium channel (KATP), which plays a key role in numerous important physiological processes and is implicated in various diseases. Recent structural studies have revealed that, like SUR1, SUR2 can undergo ligand‐dependent dynamic conformational changes, transitioning between an inhibitory inward‐facing conformation and an activating occluded conformation. In addition, SUR2 possesses a unique inhibitory Regulatory helix (R helix) that is absent in SUR1. The binding of the activating Mg‐ADP to NBD2 of SUR2 competes with the inhibitory Mg‐ATP, thereby promoting the release of the R helix and initiating the activation process. Moreover, the signal generated by Mg‐ADP binding to NBD2 might be directly transmitted to the TMD of SUR2, prior to NBD dimerization. Furthermore, the C‐terminal 42 residues (C42) of SUR2 might allosterically regulate the kinetics of Mg‐nucleotide binding on NBD2. These distinctive properties render SUR2 intricate sensors for intracellular Mg‐nucleotides.
Funder
National Basic Research Program of China
National Natural Science Foundation of China