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Reduced background autofluorescence for cell imaging using nanodiamonds and lanthanide chelates.

Nicole M CordinaNima SayyadiLindsay M ParkerArun V Everest-DassLouise J BrownNicolle H Packer
Published in: Scientific reports (2018)
Bio-imaging is a key technique in tracking and monitoring important biological processes and fundamental biomolecular interactions, however the interference of background autofluorescence with targeted fluorophores is problematic for many bio-imaging applications. This study reports on two novel methods for reducing interference with cellular autofluorescence for bio-imaging. The first method uses fluorescent nanodiamonds (FNDs), containing nitrogen vacancy centers. FNDs emit at near-infrared wavelengths typically higher than most cellular autofluorescence; and when appropriately functionalized, can be used for background-free imaging of targeted biomolecules. The second method uses europium-chelating tags with long fluorescence lifetimes. These europium-chelating tags enhance background-free imaging due to the short fluorescent lifetimes of cellular autofluorescence. In this study, we used both methods to target E-selectin, a transmembrane glycoprotein that is activated by inflammation, to demonstrate background-free fluorescent staining in fixed endothelial cells. Our findings indicate that both FND and Europium based staining can improve fluorescent bio-imaging capabilities by reducing competition with cellular autofluorescence. 30 nm nanodiamonds coated with the E-selectin antibody was found to enable the most sensitive detective of E-selectin in inflamed cells, with a 40-fold increase in intensity detected.
Keyphrases
  • high resolution
  • quantum dots
  • endothelial cells
  • emergency department
  • stem cells
  • oxidative stress
  • living cells
  • single cell
  • drug delivery
  • cancer therapy
  • cell proliferation
  • signaling pathway
  • solid phase extraction