Adipose-derived stem cells attenuate rheumatoid arthritis by restoring CX₃CR1⁺ synovial lining macrophage barrier.

IF 7.1 2区医学 Q1 CELL & TISSUE ENGINEERING

Stem Cell Research & Therapy Pub Date : 2025-03-05 DOI:10.1186/s13287-025-04144-5

Lei Wang, Ming Hao, Yongyue Xu, Zhaoyan Wang, Hanqi Xie, Bo Zhang, Xue Zhang, Jun Lin, Xiaodan Sun, Jianbin Wang, Qiong Wu

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引用次数: 0

Abstract

Background: Rheumatoid arthritis (RA) is a chronic autoimmune disease and the integrity of CX₃CR1⁺ synovial macrophage barrier significantly impacts its progression. However, the mechanisms driving the dynamic changes of this macrophage barrier remain unclear. Traditional drug therapies for RA have substantial limitations. Mesenchymal stem cells (MSCs)-based cell therapy, especially adipose-derived stem cells (ADSCs), hold therapeutic promise. Nevertheless, the underlying therapeutic mechanism of ADSCs, especially their interactions with CX₃CR1⁺ macrophages, require further investigation.

Methods: To explore the interaction between ADSCs and CX₃CR1⁺ synovial macrophages during barrier reconstruction, underlying the therapeutic mechanism of ADSCs and the mechanisms on the dynamic changes of the macrophage barrier, scRNA-seq analysis was conducted 4 days after ADSCs injection in serum transfer-induced arthritis model mice. The roles of mitochondria transfer and ADSCs transplantation were also explored. Bulk RNA-seq analysis was performed after the co-culture of ADSCs and CX₃CR1⁺ synovial macrophages. To study the in vivo fate of ADSCs, bulk RNA-seq was performed on ADSCs retrieved at 0, 2, 4, and 7 days post-injection.

Results: Intra-articular injection of ADSCs effectively attenuated the pathological progression of mice with serum transfer-induced arthritis. ADSCs gradually adhered to CX₃CR1⁺ macrophages, facilitating the restore of the macrophage barrier, while the absence of this barrier greatly weakened the therapeutic effect of ADSCs. scRNA-seq analysis revealed an Atf3^high Ccl3^high subset of CX₃CR1⁺ macrophages with impaired oxidative phosphorylation that increased during RA progression. ADSCs-mediated reduction of this subset appeared to be linked to mitochondrial transfer, and transplantation of isolated ADSCs-derived mitochondria also proved effective in treating RA. Both bulk RNA-seq and scRNA-seq analyses revealed multiple interaction mechanisms between ADSCs and CX₃CR1⁺ macrophages, including Cd74/Mif axis and GAS6/MERTK axis, which contribute to barrier restoration and therapeutic effects. Furthermore, bulk RNA-seq analysis showed that ADSCs primarily contribute to tissue repair and immune regulation subsequently.

Conclusions: Our results suggest that ADSCs ameliorated the energy metabolism signature of CX₃CR1⁺ lining macrophages and may promote barrier restoration through mitochondria transfer. In addition, we elucidated the fate of ADSCs and the therapeutic potential of mitochondria in RA treatment.

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脂肪源性干细胞通过恢复CX3CR1+滑膜内层巨噬细胞屏障来减轻类风湿关节炎。

背景：类风湿关节炎（RA）是一种慢性自身免疫性疾病，CX3CR1+滑膜巨噬细胞屏障的完整性显著影响其进展。然而，驱动这种巨噬细胞屏障动态变化的机制尚不清楚。类风湿关节炎的传统药物治疗有很大的局限性。间充质干细胞（MSCs）为基础的细胞治疗，特别是脂肪来源的干细胞（ADSCs），具有治疗前景。然而，ADSCs的潜在治疗机制，特别是它们与CX3CR1+巨噬细胞的相互作用，还需要进一步研究。方法：为探讨ADSCs与CX3CR1+滑膜巨噬细胞在屏障重建过程中的相互作用，揭示ADSCs的治疗机制及对巨噬细胞屏障动态变化的影响机制，在血清转移性关节炎模型小鼠中注射ADSCs 4天后进行scRNA-seq分析。探讨了线粒体转移和ADSCs移植的作用。ADSCs与CX3CR1+滑膜巨噬细胞共培养后，进行大量RNA-seq分析。为了研究ADSCs在体内的命运，对注射后0、2、4和7天提取的ADSCs进行了大量rna测序。结果：关节内注射ADSCs能有效减轻小鼠血清转移性关节炎的病理进展。ADSCs逐渐粘附于CX3CR1+巨噬细胞，促进了巨噬细胞屏障的恢复，而该屏障的缺失大大削弱了ADSCs的治疗效果。scRNA-seq分析显示，CX3CR1+巨噬细胞的Atf3high Ccl3high亚群氧化磷酸化受损，在RA进展过程中增加。adscs介导的这一亚群的减少似乎与线粒体转移有关，并且分离的adscs来源的线粒体移植也被证明对治疗RA有效。bulk RNA-seq和scRNA-seq分析均揭示了ADSCs与CX3CR1+巨噬细胞之间的多种相互作用机制，包括Cd74/Mif轴和GAS6/MERTK轴，这些相互作用有助于屏障恢复和治疗效果。此外，大量RNA-seq分析显示，ADSCs主要参与组织修复和随后的免疫调节。结论：我们的研究结果表明，ADSCs改善了CX3CR1+内层巨噬细胞的能量代谢特征，并可能通过线粒体转移促进屏障恢复。此外，我们阐明了ADSCs的命运和线粒体在RA治疗中的治疗潜力。

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来源期刊

Stem Cell Research & Therapy CELL BIOLOGY-MEDICINE, RESEARCH & EXPERIMENTAL

CiteScore

13.20

自引率

8.00%

发文量

525

审稿时长

1 months

期刊介绍： Stem Cell Research & Therapy serves as a leading platform for translational research in stem cell therapies. This international, peer-reviewed journal publishes high-quality open-access research articles, with a focus on basic, translational, and clinical research in stem cell therapeutics and regenerative therapies. Coverage includes animal models and clinical trials. Additionally, the journal offers reviews, viewpoints, commentaries, and reports.