AI Article Synopsis
- - KCa3.1 is an important potassium channel in mammals that helps activate immune cells by regulating potassium and calcium ion flow, crucial for maintaining a negative membrane potential.
- - It is closely related to other low-conductance potassium channels (KCa2.1, KCa2.2, KCa2.3) and relies on calmodulin for activation, with KCa3.1 specifically needing phosphorylation of a histidine residue, His358, for its function.
- - A recent study revealed the crystal structure of KCa3.1's C-terminal coiled-coil region, indicating that four histidine residues within it can bind copper ions, hinting at a potential role for His358 in copper
Article Abstract
KCa3.1 (also known as SK4 or IK1) is a mammalian intermediate-conductance potassium channel that plays a critical role in the activation of T cells, B cells, and mast cells, effluxing potassium ions to maintain a negative membrane potential for influxing calcium ions. KCa3.1 shares primary sequence similarity with three other (low-conductance) potassium channels: KCa2.1, KCa2.2, and KCa2.3 (also known as SK1-3). These four homotetrameric channels bind calmodulin (CaM) in the cytoplasmic region, and calcium binding to CaM triggers channel activation. Unique to KCa3.1, activation also requires phosphorylation of a single histidine residue, His358, in the cytoplasmic region, which relieves copper-mediated inhibition of the channel. Near the cytoplasmic C-terminus of KCa3.1 (and KCa2.1-2.3), secondary-structure analysis predicts the presence of a coiled-coil/heptad repeat. Here, we report the crystal structure of the C-terminal coiled-coil region of KCa3.1, which forms a parallel four-helix bundle, consistent with the tetrameric nature of the channel. Interestingly, the four copies of a histidine residue, His389, in an 'a' position within the heptad repeat, are observed to bind a copper ion along the four-fold axis of the bundle. These results suggest that His358, the inhibitory histidine in KCa3.1, might coordinate a copper ion through a similar binding mode.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6023178 | PMC |
| http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0199942 | PLOS |
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