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ECM-inspired micro/nanofibers for modulating cell function and tissue generation

Yun Xu, Guodong Shi, Jincheng Tang, Ruoyu Cheng, Xiaofeng Shen, Yong Gu, Liang Wu, Kun Xi, Yihong Zhao, Wenguo Cui, Liang Chen

2020Science Advances133 citationsDOIOpen Access PDF

Abstract

Current homogeneous bioscaffolds could hardly recapture the regenerative microenvironment of extracellular matrix. Inspired by the peculiar nature of dura matter, we developed an extracellular matrix-mimicking scaffold with biomimetic heterogeneous features so as to fit the multiple needs in dura mater repairing. The inner surface endowed with anisotropic topology and optimized chemical cues could orchestrate the elongation and bipolarization of fibroblasts and preserve the quiescent phenotype of fibroblasts indicated by down-regulated α-smooth muscle actin expression. The outer surface could suppress the fibrotic activity of myofibroblasts via increased microfiber density. Furthermore, integrin β1 and Yes-associated protein molecule signaling activities triggered by topological and chemical cues were verified, providing evidence for a potential mechanism. The capability of the scaffold in simultaneously promoting dura regeneration and inhibiting epidural fibrosis was further verified in a rabbit laminectomy model. Hence, the so-produced heterogeneous fibrous scaffold could reproduce the microstructure and function of natural dura.

Topics & Concepts

Extracellular matrixScaffoldCell biologyDura materVersicanFibronectinRegeneration (biology)Tissue engineeringBiophysicsMaterials scienceChemistryAnatomyBiomedical engineeringProteoglycanBiologyMedicineNerve injury and regenerationElectrospun Nanofibers in Biomedical ApplicationsTissue Engineering and Regenerative Medicine
ECM-inspired micro/nanofibers for modulating cell function and tissue generation | Litcius