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Mechanisms of leading edge protrusion in interstitial migration

Author

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  • Kerry Wilson

    (London Centre for Nanotechnology, University College London
    Present address: Department of Chemistry, Imperial College London, London SW7 2AZ, UK)

  • Alexandre Lewalle

    (London Centre for Nanotechnology, University College London)

  • Marco Fritzsche

    (London Centre for Nanotechnology, University College London
    University College London)

  • Richard Thorogate

    (London Centre for Nanotechnology, University College London)

  • Tom Duke

    (London Centre for Nanotechnology, University College London
    University College London)

  • Guillaume Charras

    (London Centre for Nanotechnology, University College London
    University College London)

Abstract

While the molecular and biophysical mechanisms underlying cell protrusion on two-dimensional substrates are well understood, our knowledge of the actin structures driving protrusion in three-dimensional environments is poor, despite relevance to inflammation, development and cancer. Here we report that, during chemotactic migration through microchannels with 5 μm × 5 μm cross-sections, HL60 neutrophil-like cells assemble an actin-rich slab filling the whole channel cross-section at their front. This leading edge comprises two distinct F-actin networks: an adherent network that polymerizes perpendicular to cell-wall interfaces and a ‘free’ network that grows from the free membrane at the cell front. Each network is polymerized by a distinct nucleator and, due to their geometrical arrangement, the networks interact mechanically. On the basis of our experimental data, we propose that, during interstitial migration, medial growth of the adherent network compresses the free network preventing its retrograde movement and enabling new polymerization to be converted into forward protrusion.

Suggested Citation

  • Kerry Wilson & Alexandre Lewalle & Marco Fritzsche & Richard Thorogate & Tom Duke & Guillaume Charras, 2013. "Mechanisms of leading edge protrusion in interstitial migration," Nature Communications, Nature, vol. 4(1), pages 1-12, December.
  • Handle: RePEc:nat:natcom:v:4:y:2013:i:1:d:10.1038_ncomms3896
    DOI: 10.1038/ncomms3896
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    Cited by:

    1. Oliver Nagel & Can Guven & Matthias Theves & Meghan Driscoll & Wolfgang Losert & Carsten Beta, 2014. "Geometry-Driven Polarity in Motile Amoeboid Cells," PLOS ONE, Public Library of Science, vol. 9(12), pages 1-20, December.
    2. Keyi Chen & Qiming Wang & Xiaowen Yu & Chaolong Wang & Junwen Gao & Shihao Zhang & Siqi Cheng & Shimin You & Hai Zheng & Jiayu Lu & Xufei Zhu & Dekun Lei & Anqi Jian & Xiaodong He & Hao Yu & Yun Chen , 2024. "OsSRF8 interacts with OsINP1 and OsDAF1 to regulate pollen aperture formation in rice," Nature Communications, Nature, vol. 15(1), pages 1-14, December.

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