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Measuring EGFR Separations on Cells with ∼10 nm Resolution via Fluorophore Localization Imaging with Photobleaching

Author

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  • Sarah R Needham
  • Michael Hirsch
  • Daniel J Rolfe
  • David T Clarke
  • Laura C Zanetti-Domingues
  • Richard Wareham
  • Marisa L Martin-Fernandez

Abstract

Detecting receptor dimerisation and other forms of clustering on the cell surface depends on methods capable of determining protein-protein separations with high resolution in the ∼10–50 nm range. However, this distance range poses a significant challenge because it is too large for fluorescence resonance energy transfer and contains distances too small for all other techniques capable of high-resolution in cells. Here we have adapted the technique of fluorophore localisation imaging with photobleaching to measure inter-receptor separations in the cellular environment. Using the epidermal growth factor receptor, a key cancer target molecule, we demonstrate ∼10 nm resolution while continuously covering the range of ∼10–80 nm. By labelling the receptor on cells expressing low receptor numbers with a fluorescent antagonist we have found inter-receptor separations all the way up from 8 nm to 59 nm. Our data are consistent with epidermal growth factor receptors being able to form homo-polymers of at least 10 receptors in the absence of activating ligands.

Suggested Citation

  • Sarah R Needham & Michael Hirsch & Daniel J Rolfe & David T Clarke & Laura C Zanetti-Domingues & Richard Wareham & Marisa L Martin-Fernandez, 2013. "Measuring EGFR Separations on Cells with ∼10 nm Resolution via Fluorophore Localization Imaging with Photobleaching," PLOS ONE, Public Library of Science, vol. 8(5), pages 1-13, May.
  • Handle: RePEc:plo:pone00:0062331
    DOI: 10.1371/journal.pone.0062331
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    Cited by:

    1. R. Sumanth Iyer & Sarah R. Needham & Ioannis Galdadas & Benjamin M. Davis & Selene K. Roberts & Rico C. H. Man & Laura C. Zanetti-Domingues & David T. Clarke & Gilbert O. Fruhwirth & Peter J. Parker &, 2024. "Drug-resistant EGFR mutations promote lung cancer by stabilizing interfaces in ligand-free kinase-active EGFR oligomers," Nature Communications, Nature, vol. 15(1), pages 1-21, December.

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