骨髓间充质干细胞衍生外泌体减轻腹膜透析相关腹膜损伤。

IF 2.5 3区 医学 Q3 CELL & TISSUE ENGINEERING Stem cells and development Pub Date : 2023-04-01 DOI:10.1089/scd.2022.0244
Fang Yu, Jie Yang, Jia Chen, Xiaoyue Wang, Qingli Cai, Yani He, Kehong Chen
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引用次数: 1

摘要

腹膜纤维化是限制腹膜透析(PD)应用的重要后遗症。本研究探讨骨髓间充质干细胞衍生外泌体(BMSC-Exos)在预防pd相关腹膜损伤中的作用和机制。将C57BL/6小鼠随机分为3组:对照组(生理盐水)、腹膜损伤组[2.5%葡萄糖腹膜透析液+脂多糖(LPS)]和腹膜损伤+外泌体组。6周后解剖小鼠,收集顶骨腹膜。评估腹膜结构和功能损伤程度。此外,对腹膜进行转录组分析,并对BMSC-Exos进行miRNA测序。腹膜损伤组腹膜壁明显增厚,腹膜功能受损。外泌体治疗后,腹膜结构和功能损伤明显减轻,而腹膜炎症、纤维化、血管生成和间皮损伤明显增加。转录组学分析表明,BMSC-Exos影响细胞周期过程、细胞分化和炎症反应调节。外泌体组中的重要通路被炎症、免疫反应和细胞分化富集,构成调节腹膜保护机制的分子网络。此外,炎症因子(TNF-α、IL-1β)、纤维化标志物(α-SMA、胶原- iii、纤维连接蛋白)、促纤维化因子(TGF-β1)和血管生成相关因子(VEGF)的mRNA和蛋白水平均通过BMSC-Exos治疗下调。BMSC-Exos治疗可通过抑制腹膜纤维化、炎症和血管生成来预防腹膜损伤,显示出多靶点调控作用。因此,BMSC-Exos治疗可能是治疗腹膜损伤的一种新的治疗策略。
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Bone Marrow Mesenchymal Stem Cell-Derived Exosomes Alleviate Peritoneal Dialysis-Associated Peritoneal Injury.

Peritoneal fibrosis is a critical sequela that limits the application of peritoneal dialysis (PD). This study explored the role and mechanism of bone marrow mesenchymal stem cell-derived exosomes (BMSC-Exos) in preventing PD-associated peritoneal injury. C57BL/6 mice were randomized into three groups: a control (saline), peritoneal injury [2.5% glucose peritoneal dialysate + lipopolysaccharide (LPS)], and peritoneal injury + exosome group. After 6 weeks, mice were dissected, and the parietal peritoneum was collected. The level of peritoneal structural and functional damage was assessed. Additionally, transcriptome analysis of the peritoneum and miRNA sequencing on BMSC-Exos were performed. The parietal peritoneum had significantly thickened, and peritoneal function was impaired in the peritoneal injury group. Peritoneal structural and functional damage was significantly reduced after exosome treatment, while peritoneal inflammation, fibrosis, angiogenesis, and mesothelial damage significantly increased. Transcriptomic analysis showed that the BMSC-Exos affected the cell cycle process, cell differentiation, and inflammatory response regulation. Significant pathways in the exosome group were enriched by inflammation, immune response, and cell differentiation, which constitute a molecular network that regulates the peritoneal protective mechanism. Additionally, inflammatory factors (TNF-α, IL-1β), fibrosis markers (α-SMA, collagen-III, fibronectin), profibrotic cytokines (TGF-β1), and angiogenesis-related factor (VEGF) were downregulated at the mRNA and protein levels through BMSC-Exos treatment. BMSC-Exos treatment can prevent peritoneal injury by inhibiting peritoneal fibrosis, inflammation, and angiogenesis, showing a multitarget regulatory effect. Therefore, BMSC-Exos therapy might be a new therapeutic strategy for treating peritoneal injury.

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来源期刊
Stem cells and development
Stem cells and development 医学-细胞与组织工程
CiteScore
7.80
自引率
2.50%
发文量
69
审稿时长
3 months
期刊介绍: Stem Cells and Development is globally recognized as the trusted source for critical, even controversial coverage of emerging hypotheses and novel findings. With a focus on stem cells of all tissue types and their potential therapeutic applications, the Journal provides clinical, basic, and translational scientists with cutting-edge research and findings. Stem Cells and Development coverage includes: Embryogenesis and adult counterparts of this process Physical processes linking stem cells, primary cell function, and structural development Hypotheses exploring the relationship between genotype and phenotype Development of vasculature, CNS, and other germ layer development and defects Pluripotentiality of embryonic and somatic stem cells The role of genetic and epigenetic factors in development
期刊最新文献
Human Adipose-derived Mesenchymal Stem Cells Colonize and Promote Healing of Leprosy Ulcer by Inducing Neuro-vascularization. FoxO3 regulates mouse bone mesenchymal stem cell fate and bone-fat balance during skeletal aging. Correction to: The Essence of Quiescence, by Peter Quesenberry et al., Stem Cells Dev 2024;33(7-8):149-152; doi: 10.1089/scd.2024.0032. Key Roles of Gli1 and Ihh Signaling in Craniofacial Development. Low initial cell density promotes the differentiation and maturation of human pluripotent stem cells into erythrocytes.
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