Significance of the balance between intracellular glutathione and polyethylene glycol for successful release of small interfering RNA from gold nanoparticles

Mark McCully, Yulan Hernandez, João Conde, Pedro Miguel Ribeiro Viana Baptista, Jesus M. de la Fuente, Andrew Hursthouse, David Stirling, Catherine C. Berry

Research output: Contribution to journalArticlepeer-review

16 Citations (Scopus)

Abstract

The therapeutic promise of small interfering RNAs (siRNAs) for specific gene silencing is dependent on the successful delivery of functional siRNAs to the cytoplasm. Their conjugation to an established delivery platform, such as gold nanoparticles, offers tremendous potential for treating diseases and advancing our understanding of cellular processes. Their success or failure is dependent on both the uptake of the nanoparticles into the cells and subsequent intracellular release of the functional siRNA. In this study, utilizing gold nanoparticle siRNA-mediated delivery against C-MYC, we aimed to determine if we could achieve knockdown in a cancer cell line with low levels of intracellular glutathione, and determine the influence, if any, of polyethylene glycol (PEG) ligand density on knockdown, with a view to determining the optimal nanoparticle design to achieve C-MYC knockdown. We demonstrate that, regardless of the PEG density, knockdown in cells with relatively low glutathione levels can be achieved, as well as the possible effect of steric hindrance of PEG on the availability of the siRNA for cleavage in the intracellular environment. Gold nanoparticle uptake was demonstrated via transmission electron microscopy and mass spectroscopy, while knockdown was determined at the protein and physiological levels (cells in S-phase) by in-cell westerns and BrdU incorporation, respectively.

Original languageEnglish
Pages (from-to)3281-3292
Number of pages12
JournalNano Research
Volume8
Issue number10
DOIs
Publication statusPublished - Oct 2015

Keywords

  • gold
  • nanoparticles
  • PEG
  • glutathione
  • siRNA
  • drug delivery
  • POLY(ETHYLENE GLYCOL)
  • QUANTUM DOTS
  • IN-VITRO
  • DELIVERY
  • SIRNA
  • METABOLISM
  • RESISTANCE
  • STABILITY
  • DENSITY
  • SIZE

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