miR-324-3p Suppresses Hepatic Stellate Cell Activation and Hepatic Fibrosis Via Regulating SMAD4 Signaling Pathway.

IF 2.4 4区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Molecular Biotechnology Pub Date : 2025-02-01 Epub Date: 2024-02-26 DOI:10.1007/s12033-024-01078-w

Si-Yu Chen, Xin Chen, Sai Zhu, Jin-Jin Xu, Xiao-Feng Li, Na-Na Yin, Yan-Yan Xiao, Cheng Huang, Jun Li

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Abstract

In hepatic fibrosis (HF), hepatic stellate cells (HSCs) form the extracellular matrix (ECM), and the pathological accumulation of ECM in the liver leads to inflammation. Our previous research found that miR-324-3p was down-regulated in culture-activated human HSCs. However, the precise effect of miR-324-3p on HF has not been elucidated. In this study, the HF mouse models were induced through directly injecting carbon tetrachloride (CCl₄) into mice; the HF cell models were constructed using TGF-β1-treated LX-2 cells. Next, real-time-quantitative polymerase chain reaction (RT-qPCR), western blot (WB) and immunohistochemistry (IHC) were applied to assess the expression levels of miR-324-3p, α-smooth muscle actin (α-SMA), Vimentin or SMAD4; hematoxylin and eosin (H&E), Masson' s trichrome and Sirius red staining to evaluate the liver injury; luciferase reporter assay to verify the targeting relationship between miR-324-3p and SMAD4; enzyme-linked immunosorbent assay (ELISA) to determine the levels of serum alanine aminotransferase (ALT) and aspartate aminotransferase (AST); and cell counting kit-8 (CCK-8) and flow cytometry to evaluate the effects of miR-324-3p on cell proliferation and cycle/apoptosis, respectively. The experimental results showed a reduction in miR-324-3p level in CCl₄-induced HF mice as well as transforming growth factor (TGF)-β1-activated HSCs. Interestingly, the miR-324-3p level was rescued following the HF recovery process. In HF mice induced by CCl₄, miR-324-3p overexpression inhibited liver tissue damage, decreased serum ALT and AST levels, and inhibited fibrosis-related biomarkers (α-SMA, Vimentin) expression, thereby inhibiting HF. Similarly, miR-324-3p overexpression up-regulated α-SMA and Vimentin levels in HF cells, while knockdown of miR-324-3p had the opposite effect. Besides, miR-324-3p played an antifibrotic role through inhibiting the proliferation of hepatocytes. Further experiments confirmed that miR-324-3p targeted and down-regulated SMAD4 expression. SMAD4 was highly expressed in HF cells, and silencing SMAD4 significantly decreased the α-SMA and Vimentin levels in HF cells. Collectively, the miR-324-3p may suppress the activation of HSCs and HF by targeting SMAD4. Therefore, miR-324-3p is identified as a potential and novel therapeutic target for HF.

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miR-324-3p 通过调节 SMAD4 信号通路抑制肝星状细胞活化和肝纤维化

在肝纤维化（HF）中，肝星状细胞（HSCs）形成细胞外基质（ECM），ECM 在肝脏中的病理堆积导致炎症。我们之前的研究发现，miR-324-3p 在培养激活的人造血干细胞中被下调。然而，miR-324-3p 对高频的确切影响尚未阐明。本研究通过直接向小鼠注射四氯化碳（CCl4）诱导高频小鼠模型；使用经 TGF-β1 处理的 LX-2 细胞构建高频细胞模型。然后，应用实时定量聚合酶链反应（RT-qPCR）、免疫印迹（WB）和免疫组织化学（IHC）评估 miR-324-3p、α-平滑肌肌动蛋白（α-SMA）、Vimentin 或 SMAD4 的表达水平；应用苏木精和伊红（H&E）、Masson 三色和天狼星红染色评估肝损伤；酶联免疫吸附试验（ELISA）测定血清丙氨酸氨基转移酶（ALT）和天冬氨酸氨基转移酶（AST）的水平；细胞计数试剂盒-8（CCK-8）和流式细胞术分别评估 miR-324-3p 对细胞增殖和周期/凋亡的影响。实验结果表明，在CCl4诱导的高频小鼠以及转化生长因子（TGF）-β1激活的造血干细胞中，miR-324-3p水平降低。有趣的是，在高频恢复过程中，miR-324-3p 水平得到了恢复。在 CCl4 诱导的高频小鼠中，miR-324-3p 的过表达抑制了肝组织损伤，降低了血清 ALT 和 AST 水平，抑制了纤维化相关生物标志物（α-SMA、Vimentin）的表达，从而抑制了高频。同样，miR-324-3p 过表达会上调 HF 细胞中的α-SMA 和 Vimentin 水平，而敲除 miR-324-3p 则会产生相反的效果。此外，miR-324-3p 还通过抑制肝细胞增殖发挥抗纤维化作用。进一步的实验证实，miR-324-3p靶向下调了SMAD4的表达。SMAD4在HF细胞中高表达，沉默SMAD4可显著降低HF细胞中的α-SMA和Vimentin水平。综上所述，miR-324-3p 可通过靶向 SMAD4 抑制造血干细胞和高频的活化。因此，miR-324-3p 被认为是治疗 HF 的潜在新靶点。

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来源期刊

Molecular Biotechnology 医学-生化与分子生物学

CiteScore

4.10

自引率

3.80%

发文量

165

审稿时长

6 months

期刊介绍： Molecular Biotechnology publishes original research papers on the application of molecular biology to both basic and applied research in the field of biotechnology. Particular areas of interest include the following: stability and expression of cloned gene products, cell transformation, gene cloning systems and the production of recombinant proteins, protein purification and analysis, transgenic species, developmental biology, mutation analysis, the applications of DNA fingerprinting, RNA interference, and PCR technology, microarray technology, proteomics, mass spectrometry, bioinformatics, plant molecular biology, microbial genetics, gene probes and the diagnosis of disease, pharmaceutical and health care products, therapeutic agents, vaccines, gene targeting, gene therapy, stem cell technology and tissue engineering, antisense technology, protein engineering and enzyme technology, monoclonal antibodies, glycobiology and glycomics, and agricultural biotechnology.