Department of Pediatrics, Clinical Sciences Lund, Lund University, Lund, Sweden.
Wallenberg Center for Molecular Medicine, Lund University, Lund, Sweden.
Front Immunol. 2023 May 22;14:1190018. doi: 10.3389/fimmu.2023.1190018. eCollection 2023.
Monocytes are key effector cells in inflammatory processes. We and others have previously shown that synovial monocytes in childhood-onset arthritis are activated. However, very little is known about how they contribute to disease and attain their pathological features. Therefore, we set out to investigate the functional alterations of synovial monocytes in childhood-onset arthritis, how they acquire this phenotype, and whether these mechanisms could be used to tailorize treatment.
The function of synovial monocytes was analysed by assays believed to reflect key pathological events, such as T-cell activation-, efferocytosis- and cytokine production assays using flow cytometry in untreated oligoarticular juvenile idiopathic arthritis (oJIA) patients (n=33). The effect of synovial fluid on healthy monocytes was investigated through mass spectrometry and functional assays. To characterize pathways induced by synovial fluid, we utilized broad-spectrum phosphorylation assays and flow cytometry, as well as inhibitors to block specific pathways. Additional effects on monocytes were studied through co-cultures with fibroblast-like synoviocytes or migration in transwell systems.
Synovial monocytes display functional alterations with inflammatory and regulatory features, e.g., increased ability to induce T-cell activation, resistance to cytokine production following activation with LPS and increased efferocytosis. , synovial fluid from patients induced the regulatory features in healthy monocytes, such as resistance to cytokine production and increased efferocytosis. IL-6/JAK/STAT signalling was identified as the main pathway induced by synovial fluid, which also was responsible for a majority of the induced features. The magnitude of synovial IL-6 driven activation in monocytes was reflected in circulating cytokine levels, reflecting two groups of low high local and systemic inflammation. Remaining features, such as an increased ability to induce T-cell activation and markers of antigen presentation, could be induced by cell-cell interactions, specifically co-culture with fibroblast-like synoviocytes.
Synovial monocytes in childhood-onset arthritis are functionally affected and contribute to chronic inflammation, e.g., promoting adaptive immune responses. These data support a role of monocytes in the pathogenesis of oJIA and highlight a group of patients more likely to benefit from targeting the IL-6/JAK/STAT axis to restore synovial homeostasis.
单核细胞是炎症过程中的关键效应细胞。我们和其他人之前已经表明,儿童发病关节炎的滑膜单核细胞被激活。然而,对于它们如何导致疾病并获得其病理特征,我们知之甚少。因此,我们着手研究儿童发病关节炎中滑膜单核细胞的功能改变,它们如何获得这种表型,以及这些机制是否可用于定制治疗。
通过流式细胞术分析未经治疗的寡关节型幼年特发性关节炎(oJIA)患者(n=33)的滑膜单核细胞的功能,这些功能被认为反映了关键的病理事件,如 T 细胞激活、吞噬作用和细胞因子产生测定。通过质谱分析和功能测定研究滑液对健康单核细胞的影响。为了描述滑液诱导的途径,我们利用广谱磷酸化测定和流式细胞术以及阻断特定途径的抑制剂。通过与成纤维样滑膜细胞共培养或在 Transwell 系统中迁移来研究对单核细胞的其他影响。
滑膜单核细胞显示出具有炎症和调节特征的功能改变,例如增加诱导 T 细胞激活的能力、对 LPS 激活后细胞因子产生的抵抗力以及增加的吞噬作用。此外,患者的滑液在健康单核细胞中诱导出调节特征,如对细胞因子产生的抵抗力和增加的吞噬作用。IL-6/JAK/STAT 信号通路被鉴定为滑液诱导的主要通路,该通路也负责大多数诱导特征。滑液中 IL-6 驱动的单核细胞激活程度反映在循环细胞因子水平上,反映了低局部和高全身炎症的两组患者。其他特征,如诱导 T 细胞激活的能力增加和抗原呈递标志物,可通过细胞-细胞相互作用,特别是与成纤维样滑膜细胞共培养来诱导。
儿童发病关节炎中的滑膜单核细胞在功能上受到影响,并有助于慢性炎症,例如促进适应性免疫反应。这些数据支持单核细胞在 oJIA 发病机制中的作用,并突出了一组更有可能受益于靶向 IL-6/JAK/STAT 轴以恢复滑膜动态平衡的患者。
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