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Crystal structure of the ATP-gated P2X4 ion channel in the closed state

Author

Listed:
  • Toshimitsu Kawate

    (Vollum Institute,)

  • Jennifer Carlisle Michel

    (Vollum Institute,)

  • William T. Birdsong

    (Vollum Institute,)

  • Eric Gouaux

    (Vollum Institute,
    Howard Hughes Medical Institute, Oregon Health and Science University, 3181 Southwest Sam Jackson Park Road, Oregon 97239, USA)

Abstract

P2X receptors are cation-selective ion channels gated by extracellular ATP, and are implicated in diverse physiological processes, from synaptic transmission to inflammation to the sensing of taste and pain. Because P2X receptors are not related to other ion channel proteins of known structure, there is at present no molecular foundation for mechanisms of ligand-gating, allosteric modulation and ion permeation. Here we present crystal structures of the zebrafish P2X4 receptor in its closed, resting state. The chalice-shaped, trimeric receptor is knit together by subunit–subunit contacts implicated in ion channel gating and receptor assembly. Extracellular domains, rich in β-strands, have large acidic patches that may attract cations, through fenestrations, to vestibules near the ion channel. In the transmembrane pore, the ‘gate’ is defined by an ∼8 Å slab of protein. We define the location of three non-canonical, intersubunit ATP-binding sites, and suggest that ATP binding promotes subunit rearrangement and ion channel opening.

Suggested Citation

  • Toshimitsu Kawate & Jennifer Carlisle Michel & William T. Birdsong & Eric Gouaux, 2009. "Crystal structure of the ATP-gated P2X4 ion channel in the closed state," Nature, Nature, vol. 460(7255), pages 592-598, July.
    • Handle: RePEc:nat:nature:v:460:y:2009:i:7255:d:10.1038_nature08198
    DOI: 10.1038/nature08198
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    Cited by:

    1. Chang-Run Guo & Zhong-Zhe Zhang & Xing Zhou & Meng-Yang Sun & Tian-Tian Li & Yun-Tao Lei & Yu-Hao Gao & Qing-Quan Li & Chen-Xi Yue & Yu Gao & Yi-Yu Lin & Cui-Yun Hao & Chang-Zhu Li & Peng Cao & Michae, 2023. "Chronic cough relief by allosteric modulation of P2X3 without taste disturbance," Nature Communications, Nature, vol. 14(1), pages 1-19, December.
    2. Cheng Shen & Yuqing Zhang & Wenwen Cui & Yimeng Zhao & Danqi Sheng & Xinyu Teng & Miaoqing Shao & Muneyoshi Ichikawa & Jin Wang & Motoyuki Hattori, 2023. "Structural insights into the allosteric inhibition of P2X4 receptors," Nature Communications, Nature, vol. 14(1), pages 1-16, December.

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