Delivery of non-viral gene carriers from sphere-templated fibrin scaffolds for sustained transgene expression

Delivery of safe and controlled levels of biomimetic cues to govern host response and reorganization is a fundamental component in the design of tissue engineering scaffolds. Non-viral gene delivery is an approach that exploits the cell machinery to produce proteins while avoiding genomic DNA incorporation. We describe a method to integrate polymeric non-viral gene carriers (polyplexes) within a novel three-dimensional, sphere-templated fibrin scaffold suitable for soft tissue engineering applications. After seeding the scaffolds with NIH-3T3 fibroblasts, different transgene expression profiles were achieved based on the spatial distribution of polyplexes within the scaffold. Scaffolds with polyplexes coated onto the surface of inter-connected pores showed peak transfection at day 5 and linear expression through 15 days. Scaffolds with polyplexes embedded within the fibrils of the biopolymer showed peak expression at 7–9 days and showed linear expression for 21–29 days, depending on the polymer:DNA ratio. Surface-coated polyplexes achieved one order of magnitude greater expression than polyplexes embedded within the scaffold. The integrated material formulations developed in this work provide a useful technology for tissue engineering applications by demonstrating the ability to provide long-term biomimetic cues through non-viral gene delivery.