Bioactivation of dermal scaffolds with a non-viral copolymer-protected gene vector

Ann K. Reckhenrich, Ursula Hopfner, Florian Krötz, Ziyang Zhang, Christian Koch, Mathias Kremer, Hans Günther Machens, Christian Plank, José T. Egaña

Research output: Contribution to journalArticlepeer-review

30 Scopus citations

Abstract

The use of scaffolds in skin tissue engineering is accompanied with low regeneration rates and high risk of infection. In this study, we activated an FDA-approved collagen scaffold for dermal regeneration by incorporation of copolymer-protected gene vectors (COPROGs) to induce a temporary release of VEGF. In vitro results show that the presence of COPROGs did not affect the distribution, attachment, proliferation and viability of cells in the scaffold. A transient release of VEGF was observed for up to 3 weeks. Moreover a high amount of VEGF was also found in the cells and associated with the scaffold. In a full skin defect model in nude mice, VEGF levels were significantly increased compared to controls in VEGF gene activated scaffolds 14 d after implantation, but not in skin from the wound edge. Results showed an increased amount of non-adherent cells, especially erythrocytes, and von Willebrandt factor (vWF) and a yellow red appearance of gene activated scaffolds in relation to controls. This suggests the presence of leaky vessels. In this work we show that the bioactivation of collagen scaffolds with COPROGs presents a new technology that allows a local release of therapeutic proteins thus enhancing the regenerative potential in vivo.

Original languageEnglish
Pages (from-to)1996-2003
Number of pages8
JournalBiomaterials
Volume32
Issue number7
DOIs
StatePublished - Mar 2011

Keywords

  • Angiogenesis
  • Controlled drug release
  • Gene activated matrix
  • Nanobiotechnology
  • Non-viral gene therapy
  • Wound healing

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