Hsa-miR-587 Regulates TGFβ/SMAD Signaling and Promotes Cell Cycle Progression.

Cell Journal (Yakhteh) Pub Date : 2020-07-01 Epub Date: 2019-10-14 DOI:10.22074/cellj.2020.6483

Mahnaz Jahangirimoez, Abdallah Medlej, Mahmoud Tavallaie, Bahram Mohammad Soltani

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Abstract

Objective: Transforming growth factor beta/single mothers against decapentaplegic (TGFβ/SMAD) signaling pathway plays important roles in various biological processes. It acts as a tumor suppressor during the early stages of cancer progression. Discovering the regulators of this pathway provides important options for therapeutic strategies. Here, we searched for candidate microRNAs (miRNAs) that potentially target the critical components of the TGFβ signaling pathway.

Materials and methods: In the current experimental study, we first predicted miRNAs that target TGFβ components using a bioinformatics software. After that, quantitative real-time polymerase chain reaction (RT-qPCR) was used to detect the expression of miR-587, TGFBR2, SMAD4, p21, CCND1 and c-MYC genes in transfected HEK293T and HCT116 cells. Dual Luciferase assay was performed to analyze the interactions between miRNAs and the target genes. Propidium iodide flow cytometry was used to determine cell cycle progression in HEK293T and HCT116 cells under hsa-miR-587 (miR-587) overexpression circumstances.

Results: Multiple miRNA responsive elements (MREs) were predicted for miR-587 within the 3'UTRs of the TGFBR2 and SMAD4 genes. Overexpression of miR-587 in HEK293T and HCT116 cells resulted in downregulation of TGFBR2 and SMAD4 genes. In addition, a downstream target gene of TGFβ/SMAD signaling, P21, was significantly downregulated in the HCT116 cells overexpressing miR-587. Dual luciferase assay analysis provided evidence that there is a direct interaction between miR-587 and the 3'UTR sequences of TGFBR2 and SMAD4 genes. Moreover, miR-587 overexpression in HEK293T and HCT116 cells resulted in reducing the SubG1 cell populations in both cell lines, as detected by flow cytometry.

Conclusion: Altogether, our data revealed an important role for miR-587 in regulating TGFβ/SMAD signaling and promoting cell cycle progression. These characteristics suggest that miR-587 is an important candidate for cancer therapy research.

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Hsa-miR-587调控TGFβ/SMAD信号传导并促进细胞周期进展

目的：转化生长因子β/单体抗瘫痪母亲（TGFβ/SMAD）信号通路在各种生物过程中发挥着重要作用。在癌症进展的早期阶段，它是一种肿瘤抑制因子。发现该通路的调控因子为治疗策略提供了重要选择。在此，我们寻找了可能靶向 TGFβ 信号通路关键组分的候选 microRNA（miRNA）：在目前的实验研究中，我们首先使用生物信息学软件预测了靶向 TGFβ 成分的 miRNAs。然后，使用实时定量聚合酶链反应（RT-qPCR）检测转染 HEK293T 和 HCT116 细胞中 miR-587、TGFBR2、SMAD4、p21、CCND1 和 c-MYC 基因的表达。采用双荧光素酶检测法分析 miRNA 与靶基因之间的相互作用。碘化丙啶流式细胞术用于确定在 hsa-miR-587 （miR-587）过表达情况下 HEK293T 和 HCT116 细胞的细胞周期进展：结果：在TGFBR2和SMAD4基因的3'UTR中预测了miR-587的多个miRNA应答元件（MREs）。在 HEK293T 和 HCT116 细胞中过表达 miR-587 会导致 TGFBR2 和 SMAD4 基因下调。此外，在过表达 miR-587 的 HCT116 细胞中，TGFβ/SMAD 信号转导的下游靶基因 P21 被显著下调。双荧光素酶分析证明，miR-587 与 TGFBR2 和 SMAD4 基因的 3'UTR 序列之间存在直接相互作用。此外，通过流式细胞术检测，在 HEK293T 和 HCT116 细胞中过表达 miR-587 能减少这两种细胞系中 SubG1 细胞的数量：总之，我们的数据揭示了 miR-587 在调节 TGFβ/SMAD 信号传导和促进细胞周期进展中的重要作用。这些特点表明，miR-587 是癌症治疗研究的重要候选对象。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Cell Journal (Yakhteh)

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