Molecular Therapy: Nucleic Acids (Jan 2013)

Inhibition of Sox2 Expression in the Adult Neural Stem Cell Niche In Vivo by Monocationic-based siRNA Delivery

  • Sylvie Remaud,
  • Silvia Alejandra López-Juárez,
  • Anne-Laure Bolcato-Bellemin,
  • Patrick Neuberg,
  • Fabrice Stock,
  • Marie-Elise Bonnet,
  • Rym Ghaddab,
  • Marie Stéphanie Clerget-Froidevaux,
  • Jacqueline Pierre-Simons,
  • Patrick Erbacher,
  • Barbara A Demeneix,
  • Ghislaine Morvan-Dubois

DOI
https://doi.org/10.1038/mtna.2013.8
Journal volume & issue
Vol. 2, no. C

Abstract

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RNA interference (RNAi) is a major tool for basic and applied investigations. However, obtaining RNAi data that have physiological significance requires investigation of regulations and therapeutic strategies in appropriate in vivo settings. To examine in vivo gene regulation and protein function in the adult neural stem cell (NSC) niche, we optimized a new non-viral vector for delivery of siRNA into the subventricular zone (SVZ). This brain region contains the neural stem and progenitor cells populations that express the stem cell marker, SOX2. Temporally and spatially controlled Sox2 knockdown was achieved using the monocationic lipid vector, IC10. siRNA/IC10 complexes were stable over time and smaller (<40 nm) than jetSi complexes (≈400 nm). Immunocytochemistry showed that siRNA/IC10 complexes efficiently target both the progenitor and stem cell populations in the adult SVZ. Injection of the complexes into the lateral brain ventricle resulted in specific knockdown of Sox2 in the SVZ. Furthermore, IC10-mediated transient in vivo knockdown of Sox2-modulated expression of several genes implicated in NSC maintenance. Taken together, these data show that IC10 cationic lipid formulation can efficiently vectorize siRNA in a specific area of the adult mouse brain, achieving spatially and temporally defined loss of function.

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