Abstract
Tissue regeneration using growth factors has disadvantages while needing to use supraphysiological growth factor concentrations. Gene therapy has been proposed as alternative. Unfortunately, drawbacks such as the use of viruses and the inefficiency of non-viral systems jeopardize clinical translation. mRNA-based transcript therapy is a novel approach that may solve plasmid DNA-based gene therapy limitations. mRNA molecules can be chemically modified in order to improve stability and immunogenicity. Chemically modified mRNA (cmRNA) is much more efficient than pDNA in delivering genes into the cell. The combination of biomaterials with cmRNA is interesting for the tissue engineering and regenerative medicine field. The resulting construct, known as Transcript-Activated Matrix, may act as a cmRNA delivery platform while supporting cell proliferation, extracellular matrix deposition and ultimately de novo tissue formation. Our work and the work of others demonstrated that the use of Transcript-Activated Matrix prolonged transgene expression and enhanced protein translation. This presentation will provide an overview of ongoing research from our group on cmRNA for improving bone repair with a particular focus on Transcript-Activated Matrix for enhancing osteogenesis. Results of our investigation in vitro with stem cells, ex vivo using tissue culture and in vivo using rat models will be presented.
