外周神经损伤时,通过miR-195-5p诱导Crebl2下调对雪旺细胞增殖和迁移的调控。
Regulation of Schwann cell proliferation and migration via miR-195-5p-induced Crebl2 downregulation upon peripheral nerve damage.
作者信息
Li Shiying, Wu Wenshuang, Zhang Jing, Chen Yu, Wu Yumeng, Wang Xinghui
机构信息
Key Laboratory of Neuroregeneration of Jiangsu and Ministry of Education, Co-Innovation Center of Neuroregeneration, NMPA Key Laboratory for Research and Evaluation of Tissue Engineering Technology Products, Nantong University, Nantong, Jiangsu, China.
Cancer Research Center Nantong, Affiliated Tumor Hospital of Nantong University, Nantong, Jiangsu, China.
出版信息
Front Cell Neurosci. 2023 Jul 3;17:1173086. doi: 10.3389/fncel.2023.1173086. eCollection 2023.
BACKGROUND
Schwann cells acquire a repair phenotype upon peripheral nerve injury (PNI), generating an optimal microenvironment that drives nerve repair. Multiple microRNAs (miRNAs) show differential expression in the damaged peripheral nerve, with critical regulatory functions in Schwann cell features. This study examined the time-dependent expression of miR-195-5p following PNI and demonstrated a marked dysregulation of miR-195-5p in the damaged sciatic nerve.
METHODS
CCK-8 and EdU assays were used to evaluate the effect of miR-195-5 on Schwann cell viability and proliferation. Schwann cell migration was tested using Transwell and wound healing assays. The miR-195-5p agomir injection experiment was used to evaluate the function of miR-195-5p . The potential regulators and effects of miR-195-5p were identified through bioinformatics evaluation. The relationship between miR-195-5p and its target was tested using double fluorescence reporter gene analysis.
RESULTS
In Schwann cells, high levels of miR-195-5p decreased viability and proliferation, while suppressed levels had the opposite effects. However, elevated miR-195-5p promoted Schwann cell migration determined by the Transwell and wound healing assays. injection of miR-195-5p agomir into rat sciatic nerves promote axon elongation after peripheral nerve injury by affecting Schwann cell distribution and myelin preservation. Bioinformatic assessment further revealed potential regulators and effectors for miR-195-5p, which were utilized to build a miR-195-5p-centered competing endogenous RNA network. Furthermore, miR-195-5p directly targeted cAMP response element binding protein-like 2 (Crebl2) mRNA via its 3'-untranslated region (3'-UTR) and downregulated Crebl2. Mechanistically, miR-195-5p modulated Schwann cell functions by repressing Crebl2.
CONCLUSION
The above findings suggested a vital role for miR-195-5p/Crebl2 in the regulation of Schwann cell phenotype after sciatic nerve damage, which may contribute to peripheral nerve regeneration.
背景
施万细胞在周围神经损伤(PNI)后获得修复表型,产生驱动神经修复的最佳微环境。多种微小RNA(miRNA)在受损的周围神经中表现出差异表达,对施万细胞特性具有关键的调节功能。本研究检测了PNI后miR-195-5p的时间依赖性表达,并证明受损坐骨神经中miR-195-5p存在明显的失调。
方法
采用CCK-8和EdU检测法评估miR-195-5对施万细胞活力和增殖的影响。使用Transwell和伤口愈合检测法检测施万细胞迁移。通过miR-195-5p激动剂注射实验评估miR-195-5p的功能。通过生物信息学评估确定miR-195-5p的潜在调节因子和作用。使用双荧光报告基因分析检测miR-195-5p与其靶标的关系。
结果
在施万细胞中,高水平的miR-195-5p降低了细胞活力和增殖,而低水平则产生相反的效果。然而,通过Transwell和伤口愈合检测法确定,升高的miR-195-5p促进了施万细胞迁移。将miR-195-5p激动剂注射到大鼠坐骨神经中,通过影响施万细胞分布和髓鞘保存,促进周围神经损伤后的轴突伸长。生物信息学评估进一步揭示了miR-195-5p的潜在调节因子和效应因子,用于构建以miR-195-5p为中心的竞争性内源RNA网络。此外,miR-195-5p通过其3'-非翻译区(3'-UTR)直接靶向cAMP反应元件结合蛋白样2(Crebl2)mRNA,并下调Crebl2。从机制上讲,miR-195-5p通过抑制Crebl2来调节施万细胞功能。
结论
上述发现表明miR-195-5p/Crebl2在坐骨神经损伤后施万细胞表型的调节中起重要作用,这可能有助于周围神经再生。
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