Cell-free 3D scaffold with two-stage delivery of miRNA-26a to regenerate critical-sized bone defects

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作者
Xiaojin Zhang
Yan Li
Y. Eugene Chen
Jihua Chen
Peter X. Ma
机构
[1] University of Michigan,Department of Biologic and Materials Science
[2] State Key Laboratory of Military Stomatology,Department of Prosthodontics
[3] School of Stomatology,Department of Cardiac Surgery
[4] The Fourth Military Medical University,Department of Biomedical Engineering
[5] Frankel Cardiovascular Center,Department of Materials Science and Engineering
[6] University of Michigan,undefined
[7] University of Michigan,undefined
[8] Macromolecular Science and Engineering Center,undefined
[9] University of Michigan,undefined
[10] University of Michigan,undefined
来源
Nature Communications | / 7卷
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摘要
MicroRNAs (miRNAs) are being developed to enhance tissue regeneration. Here we show that a hyperbranched polymer with high miRNA-binding affinity and negligible cytotoxicity can self-assemble into nano-sized polyplexes with a ‘double-shell’ miRNA distribution and high transfection efficiency. These polyplexes are encapsulated in biodegradable microspheres to enable controllable two-stage (polyplexes and miRNA) delivery. The microspheres are attached to cell-free nanofibrous polymer scaffolds that spatially control the release of miR-26a. This technology is used to regenerate critical-sized bone defects in osteoporotic mice by targeting Gsk-3β to activate the osteoblastic activity of endogenous stem cells, thus addressing a critical challenge in regenerative medicine of achieving cell-free scaffold-based miRNA therapy for tissue engineering.
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