[敲除 Hmga2 可增强脂肪间充质干细胞的成骨分化并加速小鼠骨缺损愈合】。]

Q3 Medicine
Z Ke, Z Huang, R He, Q Zhang, S Chen, Z K Cui, J Ding
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引用次数: 0

摘要

目的研究高迁移率基团AT-钩2(HMGA2)在脂肪间充质干细胞(ADSCs)成骨分化中的作用,以及敲除Hmga2对促进骨缺损修复的影响:方法:利用GEO数据库和Rstudio软件进行生物信息学研究,发现HMGA2是影响ADSCs成脂-成骨分化平衡的关键因素。利用String绘制了HMGA2在成骨分化过程中的蛋白-蛋白相互作用网络,并利用Cytoscape将其可视化,以预测HMGA2的下游靶标。用Hmga2 siRNA转染原代小鼠ADSCs(mADSCs),并用碱性磷酸酶染色和茜素红S染色评估细胞成骨分化的变化。用 RT-qPCR 和 Western 印迹法检测了转染细胞中成骨标志物 Runt 相关转录因子 2(RUNX2)、骨生成素(OPN)和骨钙素(OCN)的表达。在小鼠临界大小腓骨缺损模型中,将Hmga2-敲除的mADSCs移植到缺损处,6周后使用显微CT扫描和组织学染色评估骨修复情况:结果:GEO数据库分析表明,HMGA2在ADSCs的成脂分化过程中表达上调。蛋白-蛋白相互作用网络分析表明,HMGA2在ADSCs成骨分化过程中的潜在靶点包括SMAD7、CDH1、CDH2、SNAI1、SMAD9、IGF2BP3和ALDH1A1。在mADSCs中,敲除Hmga2会显著上调RUNX2、OPN和OCN的表达,并增加细胞碱性磷酸酶活性和钙沉积。在临界大小的腓骨缺损模型中,移植敲除Hmga2的mADSCs能明显促进新骨形成:结论:HMGA2是ADSCs成骨分化的关键调节因子,敲除Hmga2能明显促进ADSCs的成骨分化,加速ADSCs介导的小鼠骨缺损修复。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
[Hmga2 knockdown enhances osteogenic differentiation of adipose-derived mesenchymal stem cells and accelerates bone defect healing in mice].

Objective: To investigate the role of high-mobility group AT-hook 2 (HMGA2) in osteogenic differentiation of adipose-derived mesenchymal stem cells (ADSCs) and the effect of Hmga2 knockdown for promoting bone defect repair.

Methods: Bioinformatics studies using the GEO database and Rstudio software identified HMGA2 as a key factor in adipogenic-osteogenic differentiation balance of ADSCs. The protein-protein interaction network of HMGA2 in osteogenic differentiation was mapped using String and visualized with Cytoscape to predict the downstream targets of HMGA2. Primary mouse ADSCs (mADSCs) were transfected with Hmga2 siRNA, and the changes in osteogenic differentiation of the cells were evaluated using alkaline phosphatase staining and Alizarin red S staining. The expressions of osteogenic markers Runt-related transcription factor 2 (RUNX2), osteopontin (OPN), and osteocalcein (OCN) in the transfected cells were detected using RT-qPCR and Western blotting. In a mouse model of critical-sized calvarial defects, mADSCs with Hmga2-knockdown were transplanted into the defect, and bone repair was evaluated 6 weeks later using micro-CT scanning and histological staining.

Results: GEO database analysis showed that HMGA2 expression was upregulated during adipogenic differentiation of ADSCs. Protein-protein interaction network analysis suggested that the potential HMGA2 targets in osteogenic differentiation of ADSCs included SMAD7, CDH1, CDH2, SNAI1, SMAD9, IGF2BP3, and ALDH1A1. In mADSCs, Hmga2 knockdown significantly upregulated the expressions of RUNX2, OPN, and OCN and increased cellular alkaline phosphatase activity and calcium deposition. In a critical-sized calvarial defect model, transplantation of mADSCs with Hmga2 knockdown significantly promoted new bone formation.

Conclusion: HMGA2 is a crucial regulator of osteogenic differentiation in ADSCs, and Hmga2 knockdown significantly promotes osteogenic differentiation of ADSCs and accelerates ADSCs-mediated bone defect repair in mice.

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