A point-of-research decision in synovial tissue engineering: Mesenchymal stromal cells, tissue derived fibroblast or CTGF-mediated mesenchymal-to-fibroblast transition

IF 4.5 3区 生物学 Q2 CELL BIOLOGY European journal of cell biology Pub Date : 2024-09-10 DOI:10.1016/j.ejcb.2024.151455
Alexandra Damerau , Marieluise Kirchner , Philipp Mertins , Frank Buttgereit , Timo Gaber
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引用次数: 0

Abstract

Rheumatoid arthritis (RA) and osteoarthritis (OA) are prevalent inflammatory joint diseases characterized by synovitis, cartilage, and bone destruction. Fibroblast-like synoviocytes (FLSs) of the synovial membrane are a decisive factor in arthritis, making them a target for future therapies. Developing novel strategies targeting FLSs requires advanced in vitro joint models that accurately replicate non-diseased joint tissue. This study aims to identify a cell source reflecting physiological synovial fibroblasts. Therefore, we newly compared the phenotype and metabolism of “healthy” knee-derived FLSs from patients with ligament injuries (trauma-FLSs) to mesenchymal stromal cells (MSCs), their native precursors. We differentiated MSCs into fibroblasts using connective tissue growth factor (CTGF) and compared selected protein and gene expression patterns to those obtained from trauma-FLSs and OA-FLSs. Based on these findings, we explored the potential of an MSC-derived synovial tissue model to simulate a chronic inflammatory response akin to that seen in arthritis. We have identified MSCs as a suitable cell source for synovial tissue engineering because, despite metabolic differences, they closely resemble human trauma-derived FLSs. CTGF-mediated differentiation of MSCs increased HAS2 expression, essential for hyaluronan synthesis. It showed protein expression patterns akin to OA-FLSs, including markers of ECM components and fibrosis, and enzymes leading to a shift in metabolism towards increased fatty acid oxidation. In general, cytokine stimulation of MSCs in a synovial tissue model induced pro-inflammatory and pro-angiogenic gene expression, hyperproliferation, and increased glucose consumption, reflecting cellular response in human arthritis. We conclude that MSCs can serve as a proxy to study physiological synovial processes and inflammatory responses. In addition, CTGF-mediated mesenchymal-to-fibroblast transition resembles OA-FLSs. Thus, we emphasize MSCs as a valuable cell source for tools in preclinical drug screening and their application in tissue engineering.

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滑膜组织工程中的研究点决策:间充质基质细胞、组织衍生成纤维细胞或 CTGF 介导的间充质向成纤维细胞转化
类风湿性关节炎(RA)和骨关节炎(OA)是以滑膜炎、软骨和骨破坏为特征的常见关节炎性疾病。滑膜的纤维母细胞样滑膜细胞(FLS)是关节炎的决定性因素,因此成为未来疗法的目标。开发针对 FLSs 的新策略需要先进的体外关节模型,以准确复制未患病的关节组织。本研究旨在确定反映生理性滑膜成纤维细胞的细胞来源。因此,我们对来自韧带损伤患者的 "健康 "膝关节纤维母细胞(创伤-纤维母细胞)与其原生前体间充质基质细胞(间充质干细胞)的表型和新陈代谢进行了新的比较。我们使用结缔组织生长因子(CTGF)将间充质基质细胞分化成成纤维细胞,并将选定的蛋白质和基因表达模式与外伤-FLSs 和 OA-FLSs 的表达模式进行了比较。基于这些发现,我们探索了间充质干细胞衍生滑膜组织模型模拟类似关节炎的慢性炎症反应的潜力。我们发现间充质干细胞是滑膜组织工程的合适细胞来源,因为尽管存在代谢差异,但它们与人类创伤衍生的FLS非常相似。CTGF 介导的间充质干细胞分化增加了透明质酸合成所必需的 HAS2 表达。它显示出与 OA-FLSs 相似的蛋白质表达模式,包括 ECM 成分和纤维化标志物,以及导致新陈代谢转向脂肪酸氧化增加的酶。总之,在滑膜组织模型中,细胞因子刺激间充质干细胞可诱导促炎症和促血管生成基因表达、过度增殖和葡萄糖消耗增加,这反映了人类关节炎的细胞反应。我们的结论是,间充质干细胞可作为研究滑膜生理过程和炎症反应的替代物。此外,CTGF 介导的间充质向成纤维细胞的转变与 OA-FLSs 相似。因此,我们强调间充质干细胞是临床前药物筛选及其组织工程应用工具的重要细胞来源。
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来源期刊
European journal of cell biology
European journal of cell biology 生物-细胞生物学
CiteScore
7.30
自引率
1.50%
发文量
80
审稿时长
38 days
期刊介绍: The European Journal of Cell Biology, a journal of experimental cell investigation, publishes reviews, original articles and short communications on the structure, function and macromolecular organization of cells and cell components. Contributions focusing on cellular dynamics, motility and differentiation, particularly if related to cellular biochemistry, molecular biology, immunology, neurobiology, and developmental biology are encouraged. Manuscripts describing significant technical advances are also welcome. In addition, papers dealing with biomedical issues of general interest to cell biologists will be published. Contributions addressing cell biological problems in prokaryotes and plants are also welcome.
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