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Constructing a highly bioactive tendon-regenerative scaffold by surface modification of tissue-specific stem cell-derived extracellular matrix

Liang‐Ju Ning, Jing Cui, Shu-Kun He, Ruo-Nan Hu, Xuan Yao, Yi Zhang, Wei Ding, Yanjing Zhang, Jingcong Luo, Tingwu Qin

2022Regenerative Biomaterials10 citationsDOIOpen Access PDF

Abstract

Abstract Developing highly bioactive scaffold materials to promote stem cell migration, proliferation and tissue-specific differentiation is a crucial requirement in current tissue engineering and regenerative medicine. Our previous work has demonstrated that the decellularized tendon slices (DTSs) are able to promote stem cell proliferation and tenogenic differentiation in vitro and show certain pro-regenerative capacity for rotator cuff tendon regeneration in vivo. In this study, we present a strategy to further improve the bioactivity of the DTSs for constructing a novel highly bioactive tendon-regenerative scaffold by surface modification of tendon-specific stem cell-derived extracellular matrix (tECM), which is expected to greatly enhance the capacity of scaffold material in regulating stem cell behavior, including migration, proliferation and tenogenic differentiation. We prove that the modification of tECM could change the highly aligned surface topographical cues of the DTSs, retain the surface stiffness of the DTSs and significantly increase the content of multiple ECM components in the tECM-DTSs. As a result, the tECM-DTSs dramatically enhance the migration, proliferation as well as tenogenic differentiation of rat bone marrow-derived stem cells compared with the DTSs. Collectively, this strategy would provide a new way for constructing ECM-based biomaterials with enhanced bioactivity for in situ tendon regeneration applications.

Topics & Concepts

Cell biologyScaffoldExtracellular matrixRegenerative medicineDecellularizationRegeneration (biology)Stem cellTendonMesenchymal stem cellChemistryCellular differentiationTissue engineeringBiomedical engineeringBiologyAnatomyBiochemistryMedicineGeneTendon Structure and TreatmentTissue Engineering and Regenerative MedicineShoulder Injury and Treatment
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