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The structures and gating mechanism of human calcium homeostasis modulator 2

Wooyoung Choi, Nicolina Clemente, Weinan Sun, Juan Du () and Wei Lü ()
Additional contact information
Wooyoung Choi: Van Andel Institute
Nicolina Clemente: Van Andel Institute
Weinan Sun: Oregon Health & Science University
Juan Du: Van Andel Institute
Wei Lü: Van Andel Institute

Nature, 2019, vol. 576, issue 7785, 163-167

Abstract: Abstract Calcium homeostasis modulators (CALHMs) are voltage-gated, Ca2+-inhibited nonselective ion channels that act as major ATP release channels, and have important roles in gustatory signalling and neuronal toxicity1–3. Dysfunction of CALHMs has previously been linked to neurological disorders1. Here we present cryo-electron microscopy structures of the human CALHM2 channel in the Ca2+-free active or open state and in the ruthenium red (RUR)-bound inhibited state, at resolutions up to 2.7 Å. Our work shows that purified CALHM2 channels form both gap junctions and undecameric hemichannels. The protomer shows a mirrored arrangement of the transmembrane domains (helices S1–S4) relative to other channels with a similar topology, such as connexins, innexins and volume-regulated anion channels4–8. Upon binding to RUR, we observed a contracted pore with notable conformational changes of the pore-lining helix S1, which swings nearly 60° towards the pore axis from a vertical to a lifted position. We propose a two-section gating mechanism in which the S1 helix coarsely adjusts, and the N-terminal helix fine-tunes, the pore size. We identified a RUR-binding site near helix S1 that may stabilize this helix in the lifted conformation, giving rise to channel inhibition. Our work elaborates on the principles of CALHM2 channel architecture and symmetry, and the mechanism that underlies channel inhibition.

Date: 2019
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DOI: 10.1038/s41586-019-1781-3

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