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Structure of Rap1b bound to talin reveals a pathway for triggering integrin activation

Author

Listed:
  • Liang Zhu

    (Lerner Research Institute, Cleveland Clinic
    Case Western Reserve University)

  • Jun Yang

    (Lerner Research Institute, Cleveland Clinic)

  • Thomas Bromberger

    (Department of Molecular Medicine)

  • Ashley Holly

    (Lerner Research Institute, Cleveland Clinic)

  • Fan Lu

    (Lerner Research Institute, Cleveland Clinic
    Case Western Reserve University)

  • Huan Liu

    (Lerner Research Institute, Cleveland Clinic)

  • Kevin Sun

    (Lerner Research Institute, Cleveland Clinic)

  • Sarah Klapproth

    (Department of Molecular Medicine)

  • Jamila Hirbawi

    (Lerner Research Institute, Cleveland Clinic)

  • Tatiana V. Byzova

    (Lerner Research Institute, Cleveland Clinic)

  • Edward F. Plow

    (Lerner Research Institute, Cleveland Clinic)

  • Markus Moser

    (Department of Molecular Medicine)

  • Jun Qin

    (Lerner Research Institute, Cleveland Clinic
    Case Western Reserve University)

Abstract

Activation of transmembrane receptor integrin by talin is essential for inducing cell adhesion. However, the pathway that recruits talin to the membrane, which critically controls talin’s action, remains elusive. Membrane-anchored mammalian small GTPase Rap1 is known to bind talin-F0 domain but the binding was shown to be weak and thus hardly studied. Here we show structurally that talin-F0 binds to human Rap1b like canonical Rap1 effectors despite little sequence homology, and disruption of the binding strongly impairs integrin activation, cell adhesion, and cell spreading. Furthermore, while being weak in conventional binary binding conditions, the Rap1b/talin interaction becomes strong upon attachment of activated Rap1b to vesicular membranes that mimic the agonist-induced microenvironment. These data identify a crucial Rap1-mediated membrane-targeting mechanism for talin to activate integrin. They further broadly caution the analyses of weak protein–protein interactions that may be pivotal for function but neglected in the absence of specific cellular microenvironments.

Suggested Citation

  • Liang Zhu & Jun Yang & Thomas Bromberger & Ashley Holly & Fan Lu & Huan Liu & Kevin Sun & Sarah Klapproth & Jamila Hirbawi & Tatiana V. Byzova & Edward F. Plow & Markus Moser & Jun Qin, 2017. "Structure of Rap1b bound to talin reveals a pathway for triggering integrin activation," Nature Communications, Nature, vol. 8(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-01822-8
    DOI: 10.1038/s41467-017-01822-8
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    Cited by:

    1. Fan Lu & Liang Zhu & Thomas Bromberger & Jun Yang & Qiannan Yang & Jianmin Liu & Edward F. Plow & Markus Moser & Jun Qin, 2022. "Mechanism of integrin activation by talin and its cooperation with kindlin," Nature Communications, Nature, vol. 13(1), pages 1-19, December.
    2. Sawako Yamashiro & David M. Rutkowski & Kelli Ann Lynch & Ying Liu & Dimitrios Vavylonis & Naoki Watanabe, 2023. "Force transmission by retrograde actin flow-induced dynamic molecular stretching of Talin," Nature Communications, Nature, vol. 14(1), pages 1-14, December.
    3. Yaping Zhang & Xiaojuan Zhao & Bo Shen & Yanyan Bai & Claire Chang & Aleksandra Stojanovic & Can Wang & Andrew Mack & Gary Deng & Randal A. Skidgel & Ni Cheng & Xiaoping Du, 2023. "Integrin β3 directly inhibits the Gα13-p115RhoGEF interaction to regulate G protein signaling and platelet exocytosis," Nature Communications, Nature, vol. 14(1), pages 1-12, December.

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