Macrophage depletion in inflamed rat knees prevents the activation of synovial mesenchymal stem cells by weakening Nampt and Spp1 signaling.

Hayato Kodama, Kentaro Endo, Ichiro Sekiya
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Abstract

Background: Macrophages and mesenchymal stem cells (MSCs) engage in crucial interplay during inflammation and have significant roles in tissue regeneration. Synovial MSCs, as key players in joint regeneration, are known to proliferate together with macrophages in synovitis. However, the crosstalk between synovial MSCs and macrophages remains unclear. In this study, we investigated changes in the activation of synovial MSCs in inflamed rat knees following selective depletion of macrophages with clodronate liposomes.

Methods: Acute inflammation was induced in rat knee joints by injection of carrageenan (day 0). Clodronate liposomes were administered intra-articularly on days 1 and 4 to deplete macrophages, with empty liposomes as a control. Knee joints were collected on day 7 for evaluation by histology, flow cytometry, and colony-forming assays. Concurrently, synovial MSCs were cultured and subjected to proliferation assays, flow cytometry, and chondrogenesis assessments. We also analyzed their crosstalk using single-cell RNA sequencing (scRNA-seq).

Results: Clodronate liposome treatment significantly reduced CD68-positive macrophage numbers and suppressed synovitis. Immunohistochemistry and flow cytometry showed decreased expression of CD68 (a macrophage marker) and CD44 and CD271 (MSC markers) in the clodronate group, while CD73 expression remained unchanged. The number of colony-forming cells per 1000 nucleated cells and per gram of synovium was significantly lower in the clodronate group than in the control group. Cultured synovial MSCs from both groups showed comparable proliferation, surface antigen expression, and chondrogenic capacity. scRNA-seq identified seven distinct synovial fibroblast (SF) subsets, with a notable decrease in the Mki67+ SF subset, corresponding to synovial MSCs, in the clodronate group. Clodronate treatment downregulated genes related to extracellular matrix organization and anabolic pathways in Mki67+ SF. Cell-cell communication analysis revealed diminished Nampt and Spp1 signaling interaction between macrophages and Mki67+ SF and diminished Ccl7, Spp1, and Csf1 signaling interaction between Mki67+ SF and macrophages in the clodronate group. Spp1 and Nampt promoted the proliferation and/or chondrogenesis of synovial MSCs.

Conclusions: Macrophage depletion with clodronate liposomes suppressed synovitis and reduced the number and activity of synovial MSCs, highlighting the significance of macrophage-derived Nampt and Spp1 signals in synovial MSC activation. These findings offer potential therapeutic strategies to promote joint tissue regeneration by enhancing beneficial signals between macrophages and synovial MSCs.

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在发炎的大鼠膝关节中消耗巨噬细胞,可通过削弱 Nampt 和 Spp1 信号来防止滑膜间充质干细胞的活化。
背景:巨噬细胞和间充质干细胞(MSCs)在炎症过程中会发生重要的相互作用,并在组织再生中发挥重要作用。滑膜间充质干细胞作为关节再生的关键角色,已知会在滑膜炎中与巨噬细胞一起增殖。然而,滑膜间充质干细胞与巨噬细胞之间的相互影响仍不清楚。在这项研究中,我们研究了用克洛膦酸脂质体选择性消耗巨噬细胞后,炎症大鼠膝关节滑膜间充质干细胞活化的变化:方法:通过注射卡拉胶诱导大鼠膝关节急性炎症(第 0 天)。第 1 天和第 4 天在关节内注射氯膦酸脂质体以消耗巨噬细胞,空脂质体作为对照。第 7 天收集膝关节,通过组织学、流式细胞术和集落形成试验进行评估。同时培养滑膜间充质干细胞,并对其进行增殖测定、流式细胞术和软骨形成评估。我们还利用单细胞 RNA 测序(scRNA-seq)分析了它们之间的相互影响:结果:氯膦酸脂质体治疗显著减少了CD68阳性巨噬细胞的数量,并抑制了滑膜炎。免疫组化和流式细胞术显示,氯膦酸钠组中 CD68(一种巨噬细胞标记物)、CD44 和 CD271(间充质干细胞标记物)的表达减少,而 CD73 的表达保持不变。每 1000 个有核细胞和每克滑膜中的集落形成细胞数在氯膦酸钠组明显低于对照组。scRNA-seq鉴定出了7个不同的滑膜成纤维细胞(SF)亚群,其中氯膦酸钠组中与滑膜间充质干细胞相对应的Mki67+ SF亚群明显减少。氯膦酸盐治疗下调了与细胞外基质组织和 Mki67+ SF 合成代谢途径相关的基因。细胞-细胞通讯分析显示,在氯膦酸钠组中,巨噬细胞与 Mki67+ SF 之间的 Nampt 和 Spp1 信号交互作用减弱,Mki67+ SF 与巨噬细胞之间的 Ccl7、Spp1 和 Csf1 信号交互作用减弱。Spp1和Nampt促进了滑膜间充质干细胞的增殖和/或软骨形成:结论:用氯膦酸脂质体消耗巨噬细胞可抑制滑膜炎,并减少滑膜间充质干细胞的数量和活性,突出了巨噬细胞衍生的Nampt和Spp1信号在滑膜间充质干细胞活化中的重要性。这些发现为通过增强巨噬细胞和滑膜间充质干细胞之间的有益信号来促进关节组织再生提供了潜在的治疗策略。
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Cell fusion dynamics: mechanisms of multinucleation in osteoclasts and macrophages. Designer immune cells. Macrophage depletion in inflamed rat knees prevents the activation of synovial mesenchymal stem cells by weakening Nampt and Spp1 signaling. The new era for the research on the regulation of microorganism-induced inflammation. Focusing on exosomes to overcome the existing bottlenecks of CAR-T cell therapy.
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