Molecular Therapy: Nucleic Acids (Mar 2017)

An Atelocollagen Coating for Efficient Local Gene Silencing by Using Small Interfering RNA

  • Olivia Koenig,
  • Dimitrios Nothdurft,
  • Nadja Perle,
  • Bernd Neumann,
  • Andreas Behring,
  • Ilka Degenkolbe,
  • Tobias Walker,
  • Christian Schlensak,
  • Hans Peter Wendel,
  • Andrea Nolte

Journal volume & issue
Vol. 6
pp. 290 – 301

Abstract

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In the last decades, many efforts have been made to counteract adverse effects after stenting atherosclerotic coronary arteries. A breakthrough in better vascular wall regeneration was noted in the new era of drug-eluting stents. A novel personalized approach is the development of gene-eluting stents promising an alteration in gene expression involved in regeneration. We investigated a coating system consisting of the polymer atelocollagen (ATCOL) and a specific small interfering RNA (siRNA) for intercellular adhesion molecule-1 (ICAM-1) found on the surface of defective endothelial cells (ECs). We demonstrated very high cell viability, in which EA.hy926 grew on 0.008% or 0.032% ATCOL layers. Additionally, hemocompatibility assays proved the biocompatibility of this coating. The highest transfection efficiency with EA.hy926 was achieved with 5 μg siRNA immobilized in ATCOL after 2 days. The release of fluorescent-labeled siRNA was about 9 days. Long-term knockdown of ICAM-1 was analyzed by flow cytometry, revealing that the coating with 0.008% ATCOL and 5 μg siICAM-1 provoked gene silencing up to 8 days. 5′-RNA ligase-mediated rapid amplification of cDNA ends PCR (RLM-RACE-PCR) demonstrated the specificity of our established ATCOL gene-silencing coating, meaning that our coating is well suited for further investigations in in vivo studies. Herein, we would like to demonstrate that our ATCOL is well-suited for better artery wall regeneration after stent implantation. Keywords: atherosclerosis, siRNA transfection, local delivery, siICAM-1, gene knockdown, atelocollagen