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Efficient healing of large osseous segmental defects using optimized chemically modified messenger RNA encoding BMP-2.

Rodolfo E De La VegaMartijn van GriensvenWen ZhangMichael J CoenenChristopher V NagelliJoseph A PanosCarlos Julio Peniche SilvaJohannes GeigerChristian PlankChristopher H EvansElizabeth Rosado Balmayor
Published in: Science advances (2022)
Large segmental osseous defects heal poorly. Recombinant, human bone morphogenetic protein-2 (rhBMP-2) is used clinically to promote bone healing, but it is applied at very high doses that cause adverse side effects and raise costs while providing only incremental benefit. We describe a previously unexplored, alternative approach to bone regeneration using chemically modified messenger RNA (cmRNA). An optimized cmRNA encoding BMP-2 was delivered to critical-sized femoral osteotomies in rats. The cmRNA remained orthotopically localized and generated BMP locally for several days. Defects healed at doses ≥25 μg of BMP-2 cmRNA. By 4 weeks, all animals treated with 50 μg of BMP-2 cmRNA had bridged bone defects without forming the massive callus seen with rhBMP-2. Moreover, such defects recovered normal mechanical strength quicker and initiated bone remodeling faster. cmRNA regenerated bone via endochondral ossification, whereas rhBMP-2 drove intramembranous osteogenesis; cmRNA provides an innovative, safe, and highly translatable technology for bone healing.
Keyphrases
  • bone regeneration
  • recombinant human
  • mesenchymal stem cells
  • bone mineral density
  • emergency department
  • electronic health record