间充质干细胞微囊通过免疫调节保护早期类风湿性关节炎软骨免于退化。

IF 10.6 1区 生物学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Shixiong Wei, Rui-Juan Cheng, Sujia Li, Chenyang Lu, Qiuping Zhang, Qiuhong Wu, Xueting Zhao, Xinping Tian, Xiaofeng Zeng, Yi Liu
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引用次数: 0

摘要

目的:随着对临床前类风湿性关节炎(pre-RA)研究的深入,越来越多的证据表明,受 RA 影响的关节软骨的异常会在关节炎发病之前出现。因此,早期预防和治疗策略势在必行。本研究旨在探讨间充质干细胞(MSC)衍生的微囊(MVs)对胶原诱导的关节炎(CIA)小鼠模型软骨降解的保护作用:方法:建立CIA小鼠模型,通过组织学和放射学检查观察软骨的早期病理变化(第21-25天)。第22天,向CIA小鼠静脉注射间充质干细胞-MVs。通过放射学、组织学和流式细胞术检查,观察这些小鼠与CIA小鼠和对照组小鼠的炎症和软骨变化。在体外,用 IL-1β 和 TNFα 等炎症因子培养软骨细胞,以模拟软骨的炎症损伤。加入中空膜后,通过 Western 印迹、免疫荧光、酶联免疫吸附试验(ELISA)和定量 PCR 测定炎症水平和胶原表达的变化,以确定中空膜在维持软骨细胞中的作用:结果:间充质干细胞-间充质干细胞表达了囊膜蛋白(CD63和Annexin V)和间充质干细胞特有的表面标志物(CD44、CD73、CD90和CD105)。在小鼠 CIA 的早期阶段,关节软骨中的胶原蛋白含量明显减少。在患有 CIA 的小鼠体内注射间充质干细胞-间充质干细胞后,外周血中的 IL-1β、TNFα 和 IL-6 水平明显降低,促炎性 T 细胞和 B 细胞的比例也有所下降。此外,间充质干细胞-间充质干细胞降低了软骨中IL-1β、TNFα、MMP-13和ADAMTS-5的表达,同时保持了I型和II型胶原蛋白的稳定性。这些中微粒还能减轻软骨的破坏,这在成像上很明显。体外实验表明,间充质干细胞-间充质干细胞能有效抑制受刺激的外周血单核细胞(PBMCs)分泌炎症因子IL-1β、TNFα和IL-6:结论:间充质干细胞-间充质干细胞能通过调节免疫细胞炎症因子抑制炎症诱导的软骨基质分解,从而减轻软骨破坏。间充质干细胞-间充质干细胞有望成为治疗早期RA的有效方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
MSC-microvesicles protect cartilage from degradation in early rheumatoid arthritis via immunoregulation.

Objective: As research into preclinical rheumatoid arthritis (pre-RA) has advanced, a growing body of evidence suggests that abnormalities in RA-affected joint cartilage precede the onset of arthritis. Thus, early prevention and treatment strategies are imperative. In this study, we aimed to explore the protective effects of mesenchymal stem cell (MSC)-derived microvesicles (MVs) on cartilage degradation in a collagen-induced arthritis (CIA) mouse model.

Methods: A CIA mouse model was established to observe early pathological changes in cartilage (days 21-25) through histological and radiological examinations. On day 22, MSCs-MVs were intravenously injected into the mice with CIA. Radiological, histological, and flow cytometric examinations were conducted to observe inflammation and cartilage changes in these mice compared to the mice with CIA and the control mice. In vitro, chondrocytes were cultured with inflammatory factors such as IL-1β and TNFα to simulate inflammatory damage to cartilage. After the addition of MVs, changes in inflammatory levels and collagen expression were measured via Western blotting, immunofluorescence, enzyme-linked immunosorbent assays (ELISAs), and quantitative PCR to determine the role of MVs in maintaining chondrocytes.

Results: MSC-MVs expressed vesicular membrane proteins (CD63 and Annexin V) and surface markers characteristic of MSCs (CD44, CD73, CD90, and CD105). In the early stages of CIA in mice, a notable decrease in collagen content was observed in the joint cartilage. In mice with CIA, injection of MSCs-MVs resulted in a significant reduction in the peripheral blood levels of IL-1β, TNFα, and IL-6, along with a decrease in the ratio of proinflammatory T and B cells. Additionally, MSC-MVs downregulated the expression of IL-1β, TNFα, MMP-13, and ADAMTS-5 in cartilage while maintaining the stability of type I and type II collagen. These MVs also attenuated the destruction of cartilage, which was evident on imaging. In vitro experiments demonstrated that MSC-MVs effectively suppressed the secretion of the inflammatory factors IL-1β, TNFα, and IL-6 in stimulated peripheral blood mononuclear cells (PBMCs).

Conclusions: MSCs-MVs can inhibit the decomposition of the inflammation-induced cartilage matrix by regulating immune cell inflammatory factors to attenuate cartilage destruction. MSC-MVs are promising effective treatments for the early stages of RA.

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来源期刊
Journal of Nanobiotechnology
Journal of Nanobiotechnology BIOTECHNOLOGY & APPLIED MICROBIOLOGY-NANOSCIENCE & NANOTECHNOLOGY
CiteScore
13.90
自引率
4.90%
发文量
493
审稿时长
16 weeks
期刊介绍: Journal of Nanobiotechnology is an open access peer-reviewed journal communicating scientific and technological advances in the fields of medicine and biology, with an emphasis in their interface with nanoscale sciences. The journal provides biomedical scientists and the international biotechnology business community with the latest developments in the growing field of Nanobiotechnology.
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