TY - JOUR
T1 - Modified mRNA for BMP-2 in Combination with Biomaterials Serves as a Transcript-Activated Matrix for Effectively Inducing Osteogenic Pathways in Stem Cells
AU - Balmayor, Elizabeth R.
AU - Geiger, Johannes P.
AU - Koch, Christian
AU - Aneja, Manish K.
AU - Van Griensven, Martijn
AU - Rudolph, Carsten
AU - Plank, Christian
N1 - Publisher Copyright:
© 2017 Mary Ann Liebert, Inc.
PY - 2017/1/1
Y1 - 2017/1/1
N2 - Bone regeneration using stem cells and growth factors has disadvantages while needing to use supraphysiological growth factors concentrations. Gene therapy has been proposed as alternative, but also has limitation. Messenger RNA (mRNA)-based transcript therapy is a novel approach that may solve plasmid DNA-based gene therapy limitations. Although much more efficient in delivering genes into the cell, mRNA is unfortunately unstable and immunogenic. However, recent reports indicated that chemical modifications of the mRNA molecule can improve stability and toxicity. In this study, we have combined biomaterials and chemically modified mRNA (cmRNA) encoding Metridia luciferase, eGFP, and bone morphogenetic protein (BMP)-2 to develop transcript-activated matrices (TAMs) for gene transfer to stem cells. BMP-2 cmRNA was produced to evaluate its feasibility in stimulating osteogenic differentiation. Fibrin gel and micro-macro biphasic calcium phosphate (MBCP) granules were used as biomaterials. A sustained release of hBMP-2 cmRNA from both biomaterials was observed during 7 days. This occurred significantly faster from the MBCP granules compared to fibrin gels (92% from MBCP and 43% from fibrin after 7 days). Stem cells cultured in hBMP-2 cmRNA/fibrin or on hBMP-2 cmRNA/MBCP were transfected and able to secrete significant amounts of hBMP-2. Furthermore, transfected cells expressed osteogenic markers in vitro. Interestingly, although both TAMs promoted gene expression at the same level, hBMP-2 cmRNA/MBCP granules induced significantly higher collagen I and osteocalcin gene expression. This matrix also induced more mineral deposition. Overall, our results demonstrated the feasibility of developing efficient TAMs for bone regeneration by combining biomaterials and cmRNAs. MBCP synergistically enhances the hBMP-2 cmRNA-induced osteogenic pathway.
AB - Bone regeneration using stem cells and growth factors has disadvantages while needing to use supraphysiological growth factors concentrations. Gene therapy has been proposed as alternative, but also has limitation. Messenger RNA (mRNA)-based transcript therapy is a novel approach that may solve plasmid DNA-based gene therapy limitations. Although much more efficient in delivering genes into the cell, mRNA is unfortunately unstable and immunogenic. However, recent reports indicated that chemical modifications of the mRNA molecule can improve stability and toxicity. In this study, we have combined biomaterials and chemically modified mRNA (cmRNA) encoding Metridia luciferase, eGFP, and bone morphogenetic protein (BMP)-2 to develop transcript-activated matrices (TAMs) for gene transfer to stem cells. BMP-2 cmRNA was produced to evaluate its feasibility in stimulating osteogenic differentiation. Fibrin gel and micro-macro biphasic calcium phosphate (MBCP) granules were used as biomaterials. A sustained release of hBMP-2 cmRNA from both biomaterials was observed during 7 days. This occurred significantly faster from the MBCP granules compared to fibrin gels (92% from MBCP and 43% from fibrin after 7 days). Stem cells cultured in hBMP-2 cmRNA/fibrin or on hBMP-2 cmRNA/MBCP were transfected and able to secrete significant amounts of hBMP-2. Furthermore, transfected cells expressed osteogenic markers in vitro. Interestingly, although both TAMs promoted gene expression at the same level, hBMP-2 cmRNA/MBCP granules induced significantly higher collagen I and osteocalcin gene expression. This matrix also induced more mineral deposition. Overall, our results demonstrated the feasibility of developing efficient TAMs for bone regeneration by combining biomaterials and cmRNAs. MBCP synergistically enhances the hBMP-2 cmRNA-induced osteogenic pathway.
KW - BMP-2
KW - Biphasic calcium phosphate
KW - Chemically modified mRNA
KW - Fibrin
KW - MRNA delivery
KW - Transcript-activated matrices
KW - biomaterials
UR - http://www.scopus.com/inward/record.url?scp=85007418165&partnerID=8YFLogxK
U2 - 10.1089/scd.2016.0171
DO - 10.1089/scd.2016.0171
M3 - Article
C2 - 27676276
AN - SCOPUS:85007418165
SN - 1547-3287
VL - 26
SP - 25
EP - 34
JO - Stem Cells and Development
JF - Stem Cells and Development
IS - 1
ER -