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Quantification of nanowire penetration into living cells

Author

Listed:
  • Alexander M. Xu

    (Stanford University)

  • Amin Aalipour

    (Stanford University)

  • Sergio Leal-Ortiz

    (Stanford University)

  • Armen H. Mekhdjian

    (Stanford University)

  • Xi Xie

    (Stanford University)

  • Alexander R. Dunn

    (Stanford University
    Stanford Cardiovascular Institute, Stanford University School of Medicine)

  • Craig C. Garner

    (Stanford University)

  • Nicholas A. Melosh

    (Stanford University)

Abstract

High-aspect ratio nanostructures such as nanowires and nanotubes are a powerful new tool for accessing the cell interior for delivery and sensing. Controlling and optimizing cellular access is a critical challenge for this new technology, yet even the most basic aspect of this process, whether these structures directly penetrate the cell membrane, is still unknown. Here we report the first quantification of hollow nanowires—nanostraws—that directly penetrate the membrane by observing dynamic ion delivery from each 100-nm diameter nanostraw. We discover that penetration is a rare event: 7.1±2.7% of the nanostraws penetrate the cell to provide cytosolic access for an extended period for an average of 10.7±5.8 penetrations per cell. Using time-resolved delivery, the kinetics of the first penetration event are shown to be adhesion dependent and coincident with recruitment of focal adhesion-associated proteins. These measurements provide a quantitative basis for understanding nanowire–cell interactions, and a means for rapidly assessing membrane penetration.

Suggested Citation

  • Alexander M. Xu & Amin Aalipour & Sergio Leal-Ortiz & Armen H. Mekhdjian & Xi Xie & Alexander R. Dunn & Craig C. Garner & Nicholas A. Melosh, 2014. "Quantification of nanowire penetration into living cells," Nature Communications, Nature, vol. 5(1), pages 1-8, May.
    • Handle: RePEc:nat:natcom:v:5:y:2014:i:1:d:10.1038_ncomms4613
    DOI: 10.1038/ncomms4613
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