Ion channels play a crucial role in many cellular processes, including neuronal communication, muscle contraction or cell proliferation. Most multi subunit ion channels exist in two functional states, either closed or open. During gating, one should expect that all subunits undergo conformational changes. The absence of intermediate conduction levels is surprising and asks for an explanation. A team of researchers created a smart model system to answer this important question. The study is currently published in Nature Communications.
Ion channels are membrane proteins that regulate the electrical activity of cells. In this study the scientific team investigated the inwardly rectifying potassium channel Kir2. This channel is crucial for maintaining a negative membrane potential in many cells. These channels are promising drug targets for treatment of cardiovascular diseases. To foster drug development, a detailed understanding of the gating mechanism is important.
"We designed a model system that allowed us to visualize the gating of individual subunits and track conductance changes", explains the senior author. As a model system, the inwardly rectifying potassium channel Kir2 was used. This channel is crucial for maintaining a negative membrane potential in many cells.
"We introduced an acidic residue near the channel gate. This led to novel states, so-called sub-conductance states" explains another author. The life times of these sub-states were long enough to resolve them experimentally. Each of the observed sub-states represents a distinct subunit conformation. Interestingly, the sub-state occupancy is titratable by pH. "This suggests that protonation or deprotonation of individual acidic residues causes this phenomenon", explains another author.
"Molecular dynamics simulations with different protonation states of the acidic residue support this finding", explains another author. The study reveals that each subunit gating transition leads to conductance level changes. This suggests that for a fully open channel, all subunits must move together. "By designing a smart model system, we have answered a long-standing question about ion channel gating", explains another author.
The "gating" process of Kir2 potassium channels
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