Bone marrow mesenchymal stem cell-derived exosomal microRNAs target PI3K/Akt signaling pathway to promote the activation of fibroblasts.

IF 3.6 3区 医学 Q3 CELL & TISSUE ENGINEERING
Fang-Qi Li, Wen-Bo Chen, Zhi-Wen Luo, Yi-Sheng Chen, Ya-Ying Sun, Xiao-Ping Su, Jun-Ming Sun, Shi-Yi Chen
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引用次数: 7

Abstract

Background: Fibroblast plays a major role in tendon-bone healing. Exosomes derived from bone marrow mesenchymal stem cells (BMSCs) can activate fibroblasts and promote tendon-bone healing via the contained microRNAs (miRNAs). However, the underlying mechanism is not comprehensively understood. Herein, this study aimed to identify overlapped BMSC-derived exosomal miRNAs in three GSE datasets, and to verify their effects as well as mechanisms on fibroblasts.

Aim: To identify overlapped BMSC-derived exosomal miRNAs in three GSE datasets and verify their effects as well as mechanisms on fibroblasts.

Methods: BMSC-derived exosomal miRNAs data (GSE71241, GSE153752, and GSE85341) were downloaded from the Gene Expression Omnibus (GEO) database. The candidate miRNAs were obtained by the intersection of three data sets. TargetScan was used to predict potential target genes for the candidate miRNAs. Functional and pathway analyses were conducted using the Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) databases, respectively, by processing data with the Metascape. Highly interconnected genes in the protein-protein interaction (PPI) network were analyzed using Cytoscape software. Bromodeoxyuridine, wound healing assay, collagen contraction assay and the expression of COL I and α-smooth muscle actin positive were applied to investigate the cell proliferation, migration and collagen synthesis. Quantitative real-time reverse transcription polymerase chain reaction was applied to determine the cell fibroblastic, tenogenic, and chondrogenic potential.

Results: Bioinformatics analyses found two BMSC-derived exosomal miRNAs, has-miR-144-3p and has-miR-23b-3p, were overlapped in three GSE datasets. PPI network analysis and functional enrichment analyses in the GO and KEGG databases indicated that both miRNAs regulated the PI3K/Akt signaling pathway by targeting phosphatase and tensin homolog (PTEN). In vitro experiments confirmed that miR-144-3p and miR-23b-3p stimulated proliferation, migration and collagen synthesis of NIH3T3 fibroblasts. Interfering with PTEN affected the phosphorylation of Akt and thus activated fibroblasts. Inhibition of PTEN also promoted the fibroblastic, tenogenic, and chondrogenic potential of NIH3T3 fibroblasts.

Conclusion: BMSC-derived exosomes promote fibroblast activation possibly through the PTEN and PI3K/Akt signaling pathways, which may serve as potential targets to further promote tendon-bone healing.

Abstract Image

Abstract Image

Abstract Image

骨髓间充质干细胞来源的外泌体microRNAs靶向PI3K/Akt信号通路,促进成纤维细胞的激活。
背景:成纤维细胞在肌腱-骨愈合中起重要作用。来源于骨髓间充质干细胞(BMSCs)的外泌体可以通过其所含的microrna (mirna)激活成纤维细胞并促进肌腱骨愈合。然而,其潜在机制尚不完全清楚。在此,本研究旨在鉴定三个GSE数据集中重叠的bmsc来源的外泌体mirna,并验证它们对成纤维细胞的作用及其机制。目的:在三个GSE数据集中鉴定重叠的骨髓间充质干细胞来源的外泌体mirna,并验证它们对成纤维细胞的作用及其机制。方法:从Gene Expression Omnibus (GEO)数据库下载bmsc来源的外泌体miRNAs数据(GSE71241、GSE153752和GSE85341)。候选mirna通过三个数据集的交集获得。TargetScan用于预测候选mirna的潜在靶基因。使用metscape处理数据,分别使用基因本体(GO)和京都基因与基因组百科全书(KEGG)数据库进行功能和途径分析。利用Cytoscape软件对蛋白-蛋白相互作用(PPI)网络中高度互联的基因进行分析。采用溴脱氧尿苷法、创面愈合法、胶原收缩法、COL I和α-平滑肌肌动蛋白阳性表达法观察细胞增殖、迁移和胶原合成。采用实时定量逆转录聚合酶链反应测定细胞成纤维、成肌腱和成软骨潜能。结果:生物信息学分析发现,两个bmsc衍生的外泌体miRNAs, has-miR-144-3p和has-miR-23b-3p,在三个GSE数据集中重叠。GO和KEGG数据库的PPI网络分析和功能富集分析表明,这两种mirna都通过靶向磷酸酶和紧张素同源物(PTEN)调控PI3K/Akt信号通路。体外实验证实,miR-144-3p和miR-23b-3p可刺激NIH3T3成纤维细胞的增殖、迁移和胶原合成。干扰PTEN会影响Akt的磷酸化,从而激活成纤维细胞。PTEN的抑制也促进了NIH3T3成纤维细胞成纤维、成肌腱和成软骨的潜能。结论:骨髓间质干细胞衍生的外泌体可能通过PTEN和PI3K/Akt信号通路促进成纤维细胞活化,这可能是进一步促进肌腱-骨愈合的潜在靶点。
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来源期刊
World journal of stem cells
World journal of stem cells Biochemistry, Genetics and Molecular Biology-Molecular Biology
CiteScore
7.80
自引率
4.90%
发文量
750
期刊介绍: The World Journal of Stem Cells (WJSC) is a leading academic journal devoted to reporting the latest, cutting-edge research progress and findings of basic research and clinical practice in the field of stem cells. It was launched on December 31, 2009 and is published monthly (12 issues annually) by BPG, the world''s leading professional clinical medical journal publishing company.
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