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Bone‐Inspired Tube Filling Decellularized Matrix of Toad Cartilage Provided an Osteoinductive Microenvironment for Mesenchymal Stem Cells to Facilitate the Radius Defect Repair of Rabbit
Authors:He‐Lin Xu  Wai‐Geng Yang  Pian‐Pian Chen  Rui Chen  Peng‐Peng Xue  Li‐Fen Wang  Jian‐Dong Yuan  Qing Yao  Bin Chen  Ying‐Zheng Zhao
Abstract:Toad bone not only contains the rich cartilage‐like matrix but also presents low immunogenicity. It is inferred that decellularized toad bone matrix (dBECM) may provide the more profitable osteoinductive microenvironment for mesenchymal stem cells (MSCs) to promote the repair of bone defects. Herein, a hollow bone‐inspired tube is first made from hydroxyapatite (HA) and poly (γ‐glutamic acid) (PGA), and then MSCs/dBECM hydrogel is uniformly filled to its central cavity, constructing a biomimetic bone (dBECM + MSCs ? PGA + HA). In vitro scratch and transwell experiments show that dBECM hydrogel not only effectively promotes migration and proliferation of MSCs but also induces their osteogenic differentiation. Moreover, the less inflammatory macrophages infiltrate at rat skin after subcutaneously injecting dBECM hydrogel, indicating its low potential for inflammatory attack. After implanting dBECM + MSCs ? PGA + HA to critical radius defect of rabbit, X‐ray and CT imaging shows that the cortex is effectively regenerated and the medullary cavity recanalization is completed at 20 weeks. Moreover, the expression of Collagen‐II and OCN are obviously increased in the defect after implanting dBECM + MSCs ? PGA + HA. The therapeutic mechanism of dBECM + MSCs ? PGA + HA scaffold are highly associated with the enhanced angiogenesis. Collectively, the biomimetic dBECM + MSCs ? PGA + HA scaffold may be a promising strategy to improve radius defect healing efficiency.
Keywords:decellularized matrix  mesenchymal stem cells  microenvironment  radius defect  repair  toad cartilage
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