骨髓间充质干细胞衍生的细胞外基质能更好地优化微环境，支持神经再生。

BMSC-derived extracellular matrix better optimizes the microenvironment to support nerve regeneration.

机构信息

Jiangsu Key Laboratory of Neuroregeneration, Jiangsu Clinical Medicine Center of Tissue Engineering and Nerve Injury Repair, Co-innovation Center of Neuroregeneration, NMPA Key Laboratory for Research and Evaluation of Tissue Engineering Technology Products, Nantong University, 19 Qixiu Road, Nantong, JS, 226001, PR China.

出版信息

Biomaterials. 2022 Jan;280:121251. doi: 10.1016/j.biomaterials.2021.121251. Epub 2021 Nov 13.

DOI:10.1016/j.biomaterials.2021.121251

PMID:34810037

Abstract

A favorable microenvironment plays an important role in nerve regeneration. Extracellular matrix (ECM) derived from cultured cells or natural tissues can facilitate nerve regeneration in the presence of various microenvironmental cues, including biochemical, spatial, and biomechanical factors. This study, through proteomics and three-dimensional image analysis, determines that the components and spatial organization of the ECM secreted by bone marrow mesenchymal cells (BMSCs) are more similar to acellular nerves than those of the ECMs derived from Schwann cells (SCs), skin-derived precursor Schwann cells (SKP-SCs), or fibroblasts (FBs). ECM-modified nerve grafts (ECM-NGs) are engineered by co-cultivating BMSCs, SCs, FBs, SKP-SCs with well-designed nerve grafts used to bridge nerve defects. BMSC-ECM-NGs exhibit the most promising nerve repair properties based on the histology, neurophysiology, and behavioral analyses. The regeneration microenvironment formed by the ECM-NGs is also characterized by proteomics, and the advantages of BMSC-ECM-NGs are evidenced by the enhanced expression of factors related to neural regeneration and reduced immune response. Together, these findings indicate that BMSC-derived ECMs create a more superior microenvironment for nerve regeneration than that by the other ECMs and may, therefore, represent a potential alternative for the clinical repair of peripheral nerve defects.

摘要

有利的微环境在神经再生中起着重要作用。细胞外基质（ECM）来源于培养细胞或天然组织，在各种微环境线索的存在下，包括生化、空间和生物力学因素，能够促进神经再生。本研究通过蛋白质组学和三维图像分析，确定骨髓间充质细胞（BMSCs）分泌的 ECM 的成分和空间组织与无细胞神经更相似，而不是雪旺细胞（SCs）、皮肤衍生前体细胞雪旺细胞（SKP-SCs）或成纤维细胞（FBs）来源的 ECM。通过共培养 BMSCs、SCs、FBs、SKP-SCs 与精心设计的神经移植物来构建 ECM 修饰的神经移植物（ECM-NGs），用于桥接神经缺损。基于组织学、神经生理学和行为分析，BMSC-ECM-NGs 表现出最有前途的神经修复特性。ECM-NGs 形成的再生微环境也通过蛋白质组学进行了表征，并且 ECM-NGs 的优势还表现在与神经再生相关的因子表达增强和免疫反应降低。总之，这些发现表明，BMSC 衍生的 ECM 为神经再生创造了一个比其他 ECM 更优越的微环境，因此可能代表了外周神经缺损临床修复的一种潜在替代方法。

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骨髓间充质干细胞衍生的细胞外基质能更好地优化微环境，支持神经再生。

BMSC-derived extracellular matrix better optimizes the microenvironment to support nerve regeneration.

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