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Mechanism of integrin activation by talin and its cooperation with kindlin

Author

Listed:
  • Fan Lu

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

  • Liang Zhu

    (Lerner Research Institute, Cleveland Clinic)

  • Thomas Bromberger

    (Technische Universität München)

  • Jun Yang

    (Lerner Research Institute, Cleveland Clinic)

  • Qiannan Yang

    (Lerner Research Institute, Cleveland Clinic)

  • Jianmin Liu

    (Lerner Research Institute, Cleveland Clinic)

  • Edward F. Plow

    (Lerner Research Institute, Cleveland Clinic)

  • Markus Moser

    (Technische Universität München)

  • Jun Qin

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

Abstract

Talin-induced integrin binding to extracellular matrix ligands (integrin activation) is the key step to trigger many fundamental cellular processes including cell adhesion, cell migration, and spreading. Talin is widely known to use its N-terminal head domain (talin-H) to bind and activate integrin, but how talin-H operates in the context of full-length talin and its surrounding remains unknown. Here we show that while being capable of inducing integrin activation, talin-H alone exhibits unexpectedly low potency versus a constitutively activated full-length talin. We find that the large C-terminal rod domain of talin (talin-R), which otherwise masks the integrin binding site on talin-H in inactive talin, dramatically enhances the talin-H potency by dimerizing activated talin and bridging it to the integrin co-activator kindlin-2 via the adaptor protein paxillin. These data provide crucial insight into the mechanism of talin and its cooperation with kindlin to promote potent integrin activation, cell adhesion, and signaling.

Suggested Citation

  • 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.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-30117-w
    DOI: 10.1038/s41467-022-30117-w
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    References listed on IDEAS

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