利用载有卡托金的双功能铁蛋白捕获间充质干细胞并增强软骨再生中的软骨形成。

Harnessing Bifunctional Ferritin with Kartogenin Loading for Mesenchymal Stem Cell Capture and Enhancing Chondrogenesis in Cartilage Regeneration.

机构信息

State Key Laboratory of Molecular Vaccinology and Molecular Diagnostics & Center for Molecular Imaging and Translational Medicine, School of Public Health Xiamen, Xiamen University, Xiamen, 361102, China.

Guangxi Engineering Center in Biomedical Materials for Tissue and Organ Regeneration, Guangxi Medical University, Nanning, 530021, China.

出版信息

Adv Healthc Mater. 2022 Apr;11(8):e2101715. doi: 10.1002/adhm.202101715. Epub 2022 Jan 17.

DOI:10.1002/adhm.202101715

PMID:34997700

Abstract

Methods that leverage bone marrow mesenchymal stem cells (BMSCs) and stimulating factor kartogenin (KGN) for chondrocyte differentiation have paved the way for cartilage repair. However, the scarce carriers for efficiently bridging the two components significantly impede their further application. Therefore, one kind of bifunctional ferritin has designed and synthesized: RC-Fn, a genetically engineered ferritin nanocage with RGD peptide and WYRGRL peptide on the surface. The RGD can target the integrin αvβ3 of BMSCs and promote proliferation, and the WYRGRL peptide has an inherent affinity for the cartilage matrix component of collagen II protein. RC-Fn nanocages have an ideal size for penetrating the proteoglycan network of cartilage. Thus, intra-articularly injected RC-Fn with KGN loading can convert the articular cavity from a barrier into a reservoir to prevent rapid release and clearance of KGN and exogenous BMSCs, which results in efficient and persistent chondrogenesis in cartilage regeneration.

摘要

利用骨髓间充质干细胞（BMSCs）和刺激因子 Kartogenin（KGN）促进软骨细胞分化的方法为软骨修复铺平了道路。然而，用于有效桥接这两种成分的稀缺载体严重阻碍了它们的进一步应用。因此，设计并合成了一种双功能铁蛋白：RC-Fn，这是一种表面带有 RGD 肽和 WYRGRL 肽的基因工程铁蛋白纳米笼。RGD 可以靶向 BMSCs 的整合素 αvβ3，促进增殖，而 WYRGRL 肽对胶原蛋白 II 蛋白的软骨基质成分具有固有亲和力。RC-Fn 纳米笼的尺寸理想，可穿透软骨的蛋白聚糖网络。因此，关节内注射负载 KGN 的 RC-Fn 可以将关节腔从屏障转变为储库，以防止 KGN 和外源性 BMSCs 的快速释放和清除，从而在外源性 BMSCs 的持续存在下高效且持久地促进软骨生成。

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利用载有卡托金的双功能铁蛋白捕获间充质干细胞并增强软骨再生中的软骨形成。

Harnessing Bifunctional Ferritin with Kartogenin Loading for Mesenchymal Stem Cell Capture and Enhancing Chondrogenesis in Cartilage Regeneration.

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