Publication date: Available online 14 March 2018
Source:Acta Biomaterialia
Author(s): Tao Li, Mingzheng Peng, Zezheng Yang, Xiaojun Zhou, Yuan Deng, Chuan Jiang, Ming Xiao, Jinwu Wang
To promote vascularization of tissue-engineered bone, IFN-γ polarizing macrophages to M1 was loaded on 5% calcium silicate/β-tricalcium phosphate (CaSiO3-β-TCP) scaffolds. IFN-γ and Si released from the scaffold were designed to polarize M1 and M2 macrophages, respectively. β-TCP, CaSiO3-β-TCP, and IFN-γ@CaSiO3-β-TCP were fabricated and biocompatibilities were evaluated. Polarizations of macrophages were detected by flow cytometry. Human umbilical vein endothelial cells with GFP were cultured and induced on Matrigel with conditioned culture medium extracted from culture of macrophages loaded on scaffolds for evaluating angiogenesis. Four weeks after the scaffolds were subcutaneously implanted into C57B1/6, vascularization was evaluated by visual observation, hematoxylin and eosin staining, as well as immunohistochemistry of CD31. The results showed that IFN-γ@CaSiO3-β-TCP scaffolds released IFN-γ in the early stage (1–3 days) to stimulate macrophages to M1 polarization, followed by release of Si inducing macrophages to M2 polarization while scaffolds degraded. The activation of M1/M2 allows macrophages to secrete more cytokines, including VEGF, CXCL12 and PDGF-BB. The IFN-γ@CaSiO3-β-TCP scaffolds formed more blood vessels in vitro and in vivo compared to the control groups. The study indicated that the design of tissue-engineered scaffolds with immunomodulatory function utilized host macrophages to increase vascularization of tissue-engineered bone, providing a new strategy for accelerating vascularization and osteogenesis of tissue-engineered scaffolds and showing the potential for treatment of major bone defects.Statement of significanceA 3-D printed immunomodulatory scaffold was designed for repair of massive bone defects. Through the release of interferon γ and silicon ions, the new immunomodulatory scaffold promoted the M1 and M2 polarization of macrophages, boosting angiogenesis. This scaffold provided a new strategy for accelerating vascularization and osteogenesis of tissue-engineered scaffolds and showing the potential for treatment of major bone defects.
Graphical abstract
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