Wu Yue, Qi Yabin, Bai Yangqiu, Zhang Haihui, Zhu Wenliang, Zhou Shengli, Zhang Yanrui
Department of Gastroenterology, Henan Provincial People's Hospital, Zhengzhou University People's Hospital, Zhengzhou, Henan, China.
Department of Critical Care Medicine, Henan Provincial People's Hospital, Zhengzhou University People's Hospital, Zhengzhou, Henan, China.
Cell Death Discov. 2022 Aug 26;8(1):374. doi: 10.1038/s41420-022-01135-w.
Alcoholic hepatitis (AH), a kind of alcoholic liver disease, shows poor prognosis. Long noncoding RNAs (lncRNAs) exert critical role in liver diseases. Here, we intended to investigate the possible molecular mechanism that 1700020I14Rik-based regulation of microRNA (miR)-137/Aldo-keto reductase family 1 member B10 (AKR1B10) affecting the inflammatory response and hepatocyte damage in AH. AH-related genes and the down-stream regulatory pathway were screnned by bioinformatics. Mouse normal hepatocyte cell line AML12 was selected to construct an ethanol-induced hepatocyte injury model for in vitro mechanistic validation, while we also established an AH mouse model using the ethanol with gradually increased concentration of 2-4% (v/v) for in vivo study. Specific role of 1700020I14Rik/miR-137/AKR1B10 in AML12 cell viability, proliferation and apoptotic capacity as well as inflammation and liver damage in mice were analyzed following ectopic and depletion approaches. We found elevated AKR1B10 and 1700020I14Rik but reduced miR-137 in AH. 1700020I14Rik was able to elevated miR-137-mediated AKR1B10. In vitro cell experiments and in vivo animal experiments validated that 1700020I14Rik reduced ethanol-induced hepatocyte damage and inflammation in AH mice through regulation of miR-137-mediated AKR1B10/Erk axis. The current study underlied that 1700020I14Rik could activate AKR1B10/Erk signaling through inhibition of miR-137, thereby promoting the hepatocyte damage in AH mice.
酒精性肝炎(AH)是一种酒精性肝病,预后较差。长链非编码RNA(lncRNA)在肝脏疾病中发挥关键作用。在此,我们旨在研究基于1700020I14Rik调控微小RNA(miR)-137/醛糖酮还原酶家族1成员B10(AKR1B10)影响AH炎症反应和肝细胞损伤的可能分子机制。通过生物信息学筛选AH相关基因及其下游调控通路。选择小鼠正常肝细胞系AML12构建乙醇诱导的肝细胞损伤模型进行体外机制验证,同时使用浓度逐渐增加至2-4%(v/v)的乙醇建立AH小鼠模型进行体内研究。采用异位表达和敲减方法分析1700020I14Rik/miR-137/AKR1B10在AML12细胞活力、增殖和凋亡能力以及小鼠炎症和肝损伤中的具体作用。我们发现AH中AKR1B10和1700020I14Rik升高,但miR-137降低。1700020I14Rik能够上调miR-137介导的AKR1B10。体外细胞实验和体内动物实验证实,1700020I14Rik通过调控miR-137介导的AKR1B10/Erk轴减少AH小鼠乙醇诱导的肝细胞损伤和炎症。目前的研究表明,1700020I14Rik可通过抑制miR-137激活AKR1B10/Erk信号,从而促进AH小鼠肝细胞损伤。
