Title: The use of non-viral gene vectors for bioactive poly-(D,L-lactide) implant surfaces in bone tissue engineering

Author: AK Reckhenrich, C Koch, JT Egaña, C Plank

Address: Technical University of Munich, Klinikum rechts der Isar, Department of Plastic and Hand Surgery, Ismaningerstr. 22, 81675 Munich, Germany

E-mail: ann.reckhenrich at lrz.tum.de

Key Words: Non-viral gene therapy; controlled drug release; nanobiotechnology; bone regeneration; bioactive surface; implant integrity

Publication date: June 27th 2012

Abstract: The application of scaffolds in bone tissue engineering often comes along with side effects such as poor integrity, low regeneration rates of bone tissue with inadequate functionality, and, in case of non-degradable implants, the necessity of a second removal surgery after therapy. In this study, we coated a bioresorbable FDA-approved poly-(ε-caprolactone)-scaffold for bone regeneration with a poly-(D,L-lactide) layer containing copolymer-protected gene vectors to locally provide bone morphogenetic protein-2 (BMP-2). Results show that the presence of such gene vectors did not affect the distribution and attachment of seeded cells on gene-activated surfaces. BMP-2 was released into cell culture supernatants and furthermore detected in homogenised scaffolds. Increased amounts of osteoblastic markers, such as osteocalcin, osteopontin and the activity of alkaline phosphatase, in gene-activated scaffolds in vitro suggest a transdifferentiation of myoblastic C2C12 cells into the osteoblastic phenotype. With this study we present a new technology to bioactivate implant surfaces with non-viral gene vectors. This tool allows the stimulation of tissue regeneration by a local release of therapeutic proteins in vivo.

Article download: Pages 441-448 (PDF file)
DOI: 10.22203/eCM.v023a34