来源于不同肌肉骨骼组织的细胞外基质支架驱动不同的巨噬细胞表型和直接的组织特异性细胞分化

Olwyn R. Mahon , David C. Browe , Pedro J. Diaz-Payno , Pierluca Pitacco , Kyle T. Cunningham , Kingston H.G. Mills , Aisling Dunne , Daniel J. Kelly
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引用次数: 5

摘要

宿主免疫反应,特别是巨噬细胞功能,是植入后生物材料成功或失败的关键决定因素。细胞外基质(ECM)衍生的支架已被证明可以促进促再生巨噬细胞表型和更有建设性的重塑结果。本研究表明,巨噬细胞暴露于关节软骨(AC)、韧带(LIG)和生长板(GP)衍生的ECM支架时,表现出不同的表型。巨噬细胞通常对ligg来源的ECM无反应,暴露于ac来源的ECM时呈m2样表型,暴露于GP-ECM时呈M1-M2杂交表型。此外,巨噬细胞暴露于AC-ECM时表达更高水平的促软骨生成因子,如FGF2,暴露于GP-ECM时表达更高水平的血管生成和促骨生成因子,如VEGF、IL-6和TNF。此外,我们观察到它们可以不同地指导骨骼干细胞的分化,其中AC-ECM促进软骨分化,GP-ECM促进多能干细胞/基质细胞(MSCs)的成骨分化。支架植入大骨缺损后的体内免疫细胞亚群特征表明,AC-ECM驱动M2巨噬细胞表型,而含有GP-ECM的支架促进了M1-M2杂交表型,并增强了血管化和血管成熟。这种对植入含有GP-ECM的支架的独特反应与CD45+白细胞和CD3+ T细胞浸润增加有关,同时伴有IFN-γ和IL-17浓度升高。综上所述,这项工作表明ECM支架的来源组织在调节巨噬细胞和骨骼干细胞的表型中起着关键作用。此外,这些ecm可以指导细胞分化和生长因子的产生,这些生长因子对其来源组织的再生至关重要。这项工作强调了对生物材料植入后的先天免疫细胞亚群进行更彻底表征的需要。
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Extracellular matrix scaffolds derived from different musculoskeletal tissues drive distinct macrophage phenotypes and direct tissue-specific cellular differentiation

The host immune response, specifically macrophage function, is a critical determinant of biomaterial success or failure post-implantation. Extracellular matrix (ECM) derived scaffolds have been shown to promote a pro-regenerative macrophage phenotype and a more constructive remodelling outcome. Here we demonstrate that macrophages adopt distinct phenotypes when exposed to articular cartilage (AC), ligament (LIG) and growth plate (GP) derived ECM scaffolds. Macrophages were generally unresponsive to LIG-derived ECM, adopted an M2-like phenotype when exposed to AC-derived ECM, and a hybrid M1-M2 phenotype when exposed to GP-ECM. Furthermore, macrophages expressed higher levels of pro-chondrogenic factors, such as FGF2, when exposed to AC-ECM, and higher levels of angiogenic and pro-osteogenic factors, such as VEGF, IL-6 and TNF, when exposed to GP-ECM. In addition, we observed that they can differentially direct the differentiation of skeletal stem cells, whereby AC-ECM promotes the chondrogenic differentiation and GP-ECM the osteogenic differentiation of multipotent stem/stromal cells (MSCs). In vivo characterisation of immune cell subsets following scaffold implantation into a large bone defect demonstrated that AC-ECM drives an M2 macrophage phenotype, while GP-ECM containing scaffolds promoted a hybrid M1-M2 phenotype and enhanced vascularisation and vessel maturation. This distinct response to the implantation of GP-ECM containing scaffolds was associated with increased CD45+ leukocyte and CD3+ T cell infiltration, accompanied by elevated concentrations of IFN-γ and IL-17. Taken together this work demonstrates that the source tissue of ECM scaffolds plays a key role in regulating the phenotype of both macrophages and skeletal stem cells. Furthermore, these ECMs can direct the cellular differentiation and production of growth factors essential for the regeneration of their source tissue. This work highlights the need for a more thorough characterisation of innate immune cell subsets post-biomaterial implantation.

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