SMAR1 and p53-regulated lncRNA RP11-431M3.1 enhances HIF1A translation via miR-138 in colorectal cancer cells under oxidative stress

Ganesh Suraj Bose, Shruti Jindal, Kiran Gautam Landage, Aarzoo Jindal, Monali Prakash Mahale, Abhijeet P. Kulkarni, Smriti Mittal
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Abstract

Eukaryotic cells respond to stress by altering coding and non-coding gene expression programs. Alongside many approaches and regulatory mechanisms, long non-coding RNAs (lncRNA) are finding a significant place in gene regulation, suggesting an involvement in various cellular processes and pathophysiology. LncRNAs are regulated by many transcription factors, including SMAR1 and p53, which are tumor suppressor genes. SMAR1 inhibits cancer cell metastasis and invasion and is also known to inhibit apoptosis during low-dose stress in coordination with p53. Data mining analysis suggested that these tumor suppressor genes might coregulate the lncRNA RP11-431M3.1 in colon cancer cells. Importantly, RP11-431M3.1 expression was found to be negatively correlated with patient survival rates in a number of cancers. Oxidative stress occurs when an imbalance in the body is caused by reactive oxygen species (ROS). This imbalance is known to be important in the development/pathogenesis of colon cancer. We are researching the role and control of this lncRNA in HCT116 cells under conditions of oxidative stress. We observed a dose-dependent differential expression of lncRNA upon H2O2 treatment and found that p53 and SMAR1 bind differentially to the promoter in response to the dose of stress inducer used. RP11-431M3.1 was observed to sponge miR-138 which has an important target gene, hypoxia-inducible factor (HIF1A). miR-138 was observed to bind differentially to RP11-431M3.1 and HIF1A RNA depending on the dose of oxidative stress. Furthermore, the knockdown of RP11-431M3.1 decreased the migration and proliferation of colon cancer cells. Our results suggest a previously undescribed regulatory mechanism through which RP11-431M3.1 is transcriptionally regulated by SMAR1 and p53, target HIF1A through miR-138, and highlight its potential as a therapeutic and diagnostic marker for cancer.

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SMAR1和p53调控的lncRNA RP11-431M3.1通过miR-138增强氧化应激下结直肠癌细胞中HIF1A的翻译。
真核细胞通过改变编码和非编码基因表达程序来应对压力。除了许多方法和调控机制外,长非编码 RNA(lncRNA)在基因调控中也占有重要地位,这表明它们参与了各种细胞过程和病理生理学。LncRNA 受许多转录因子的调控,包括作为肿瘤抑制基因的 SMAR1 和 p53。SMAR1 可抑制癌细胞转移和侵袭,还能与 p53 相互配合,在低剂量应激过程中抑制细胞凋亡。数据挖掘分析表明,这些肿瘤抑制基因可能与结肠癌细胞中的lncRNA RP11-431M3.1存在核心关联。重要的是,研究发现 RP11-431M3.1 的表达与多种癌症患者的生存率呈负相关。当活性氧(ROS)在体内造成失衡时,就会产生氧化应激。众所周知,这种失衡在结肠癌的发展/发病过程中起着重要作用。我们正在研究氧化应激条件下这种 lncRNA 在 HCT116 细胞中的作用和控制。我们观察到 H2O2 处理时 lncRNA 的表达与剂量有关,并发现 p53 和 SMAR1 与启动子的结合与所使用的应激诱导剂的剂量有关。观察到 RP11-431M3.1 与 miR-138 结合,而 miR-138 有一个重要的靶基因--缺氧诱导因子(HIF1A)。此外,敲除 RP11-431M3.1 会降低结肠癌细胞的迁移和增殖。我们的研究结果表明,RP11-431M3.1通过miR-138转录调控SMAR1和p53,靶向HIF1A,是一种以前未曾描述过的调控机制,并突显了其作为癌症治疗和诊断标志物的潜力。
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