Site directed vascular gene delivery in vivo by ultrasonic destruction of magnetic nanoparticle coated microbubbles

Hanna Mannell, Joachim Pircher, Franziska Fochler, Yvonn Stampnik, Thomas Räthel, Bernhard Gleich, Christian Plank, Olga Mykhaylyk, Chiheb Dahmani, Markus Wörnle, Andrea Ribeiro, Ulrich Pohl, Florian Krötz

Research output: Contribution to journalArticlepeer-review

30 Scopus citations

Abstract

Site specific vascular gene delivery for therapeutic implications is favorable because of reduction of possible side effects. Yet this technology faces numerous hurdles that result in low transfection rates because of suboptimal delivery. Combining ultrasonic microbubble technology with magnetic nanoparticle enhanced gene transfer could make it possible to use the systemic vasculature as the route of application and to magnetically trap these compounds at the target of interest. In this study we show that magnetic nanoparticle-coated microbubbles bind plasmid DNA and successfully deliver it to endothelial cells in vitro and more importantly transport their cargo through the vascular system and specifically deliver it to the vascular wall in vivo at sites where microbubbles are retained by magnetic force and burst by local ultrasound application. This resulted in a significant enhancement in site specific gene delivery compared with the conventional microbubble technique. Thus, this technology may have promising therapeutic potential. From the Clinical Editor: This work focuses on combining ultrasonic microbubble technology with magnetic nanoparticle enhanced gene transfer to enable targeted gene delivery via the systemic vasculature and magnetic trapping of these compounds at the target of interest.

Original languageEnglish
Pages (from-to)1309-1318
Number of pages10
JournalNanomedicine: Nanotechnology, Biology, and Medicine
Volume8
Issue number8
DOIs
StatePublished - Nov 2012

Keywords

  • Endothelial cells
  • Gene delivery
  • Magnetic nanoparticles
  • Microbubbles
  • Ultrasound

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