Wu Yi-Hsuan, Lin Hsin-Ru, Lee Ying-Hsuan, Huang Pin-Hao, Wei Huei-Chung, Stern Arnold, Chiu Daniel Tsun-Yee
a Research Center for Chinese Herbal Medicine, College of Human Ecology , Chang Gung University of Science and Technology , Taoyuan , Taiwan.
b Department of Medical Biotechnology and Laboratory Sciences, College of Medicine , Chang Gung University , Taoyuan , Taiwan.
Free Radic Res. 2017 Jun;51(6):591-603. doi: 10.1080/10715762.2017.1339871. Epub 2017 Jul 4.
Oxidative stress induces miR-200c, the predominant microRNA (miRNA) in lung tissues; however, the antioxidant role and biochemistry of such induction have not been clearly defined. Therefore, a lung adenocarcinoma cell line (A549) and a normal lung fibroblast (MRC-5) were used as models to determine the effects of miR-200c expression on lung antioxidant response. Hydrogen peroxide (HO) upregulated miR-200c, whose overexpression exacerbated the decrease in cell proliferation, retarded the progression of cells in the G2/M-phase, and increased oxidative stress upon HO stimulation. The expression of three antioxidant proteins, superoxide dismutase (SOD)-2, haem oxygenase (HO)-1, and sirtuin (SIRT) 1, was reduced upon HO stimulation in miR-200c-overexpressed A549 cells. This phenomenon of increased oxidative stress and antioxidant protein downregulation also occurs simultaneously in miR-200c overexpressed MRC-5 cells. Molecular analysis revealed that miR-200c inhibited the gene expression of HO-1 by directly targeting its 3'-untranslated region. The downregulation of SOD2 and SIRT1 by miR-200c was mediated through zinc finger E-box-binding homeobox 2 (ZEB2) and extracellular signal-regulated kinase 5 (ERK5) pathways, respectively, where knockdown of ZEB2 or ERK5 decreased the expression of SOD2 or SIRT1 in A549 cells. LNA anti-miR-200c transfection in A549 cells inhibited the endogenous miR-200c expression, resulting in increased expressions of antioxidant proteins, reduced oxidative stress and recovered cell proliferation upon HO stimulation. These findings indicate that miR-200c fine-tuned the antioxidant response of the lung cells to oxidative stress through several pathways, and thus this study provides novel information concerning the role of miR-200c in modulating redox homeostasis of lung.
氧化应激诱导肺组织中占主导地位的微小RNA(miRNA)——miR-200c;然而,这种诱导的抗氧化作用及其生物化学机制尚未明确界定。因此,以肺腺癌细胞系(A549)和正常肺成纤维细胞(MRC-5)为模型,以确定miR-200c表达对肺抗氧化反应的影响。过氧化氢(H₂O₂)上调miR-200c,其过表达加剧细胞增殖的下降,阻碍细胞在G2/M期的进程,并在H₂O₂刺激后增加氧化应激。在miR-200c过表达的A549细胞中,H₂O₂刺激后三种抗氧化蛋白,即超氧化物歧化酶(SOD)-2、血红素加氧酶(HO)-1和沉默调节蛋白(SIRT)1的表达降低。在miR-200c过表达的MRC-5细胞中也同时出现氧化应激增加和抗氧化蛋白下调的现象。分子分析显示,miR-200c通过直接靶向HO-1的3'-非翻译区来抑制其基因表达。miR-200c对SOD2和SIRT1的下调分别通过锌指E盒结合同源框2(ZEB2)和细胞外信号调节激酶5(ERK5)途径介导,其中敲低ZEB2或ERK5可降低A549细胞中SOD2或SIRT1的表达。在A549细胞中转染锁核酸抗miR-200c可抑制内源性miR-200c表达,导致抗氧化蛋白表达增加、氧化应激降低,并在H₂O₂刺激后恢复细胞增殖。这些发现表明,miR-200c通过多种途径微调肺细胞对氧化应激的抗氧化反应,因此本研究提供了有关miR-200c在调节肺氧化还原稳态中作用的新信息。
