微小RNA-17-5p是G1/S期细胞周期转换的关键调节因子。

The miR-17-5p microRNA is a key regulator of the G1/S phase cell cycle transition.

作者信息

Cloonan Nicole, Brown Mellissa K, Steptoe Anita L, Wani Shivangi, Chan Wei Ling, Forrest Alistair R R, Kolle Gabriel, Gabrielli Brian, Grimmond Sean M

机构信息

Institute for Molecular Bioscience, The University of Queensland, Carmody Road, St Lucia, 4072, Australia.

出版信息

Genome Biol. 2008;9(8):R127. doi: 10.1186/gb-2008-9-8-r127. Epub 2008 Aug 14.

DOI:10.1186/gb-2008-9-8-r127

PMID:18700987

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2575517/

Abstract

BACKGROUND

MicroRNAs are modifiers of gene expression, acting to reduce translation through either translational repression or mRNA cleavage. Recently, it has been shown that some microRNAs can act to promote or suppress cell transformation, with miR-17-92 described as the first oncogenic microRNA. The association of miR-17-92 encoded microRNAs with a surprisingly broad range of cancers not only underlines the clinical significance of this locus, but also suggests that miR-17-92 may regulate fundamental biological processes, and for these reasons miR-17-92 has been considered as a therapeutic target.

RESULTS

In this study, we show that miR-17-92 is a cell cycle regulated locus, and ectopic expression of a single microRNA (miR-17-5p) is sufficient to drive a proliferative signal in HEK293T cells. For the first time, we reveal the mechanism behind this response - miR-17-5p acts specifically at the G1/S-phase cell cycle boundary, by targeting more than 20 genes involved in the transition between these phases. While both pro- and anti-proliferative genes are targeted by miR-17-5p, pro-proliferative mRNAs are specifically up-regulated by secondary and/or tertiary effects in HEK293T cells.

CONCLUSION

The miR-17-5p microRNA is able to act as both an oncogene and a tumor suppressor in different cellular contexts; our model of competing positive and negative signals can explain both of these activities. The coordinated suppression of proliferation-inhibitors allows miR-17-5p to efficiently de-couple negative regulators of the MAPK (mitogen activated protein kinase) signaling cascade, promoting growth in HEK293T cells. Additionally, we have demonstrated the utility of a systems biology approach as a unique and rapid approach to uncover microRNA function.

摘要

背景

微小RNA是基因表达的调节因子，通过翻译抑制或mRNA切割作用来减少翻译。最近研究表明，一些微小RNA可促进或抑制细胞转化，其中miR-17-92被描述为首个致癌微小RNA。miR-17-92编码的微小RNA与多种癌症相关，这不仅突显了该基因座的临床意义，还表明miR-17-92可能调节基本生物学过程，因此miR-17-92被视为一个治疗靶点。

结果

在本研究中，我们表明miR-17-92是一个受细胞周期调控的基因座，单个微小RNA（miR-17-5p）的异位表达足以在HEK293T细胞中驱动增殖信号。我们首次揭示了这种反应背后的机制——miR-17-5p通过靶向20多个参与这些阶段转换的基因，特异性作用于G1/S期细胞周期边界。虽然促增殖和抗增殖基因均被miR-17-5p靶向，但在HEK293T细胞中，促增殖mRNA通过二级和/或三级效应被特异性上调。

结论

miR-17-5p微小RNA在不同细胞环境中既能作为癌基因又能作为肿瘤抑制因子发挥作用；我们的正负信号竞争模型可以解释这两种活性。对增殖抑制剂的协同抑制使miR-17-5p能够有效解除丝裂原活化蛋白激酶（MAPK）信号级联的负调节因子，从而促进HEK293T细胞生长。此外，我们证明了系统生物学方法作为一种独特且快速揭示微小RNA功能的方法的实用性。

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微小RNA-17-5p是G1/S期细胞周期转换的关键调节因子。

The miR-17-5p microRNA is a key regulator of the G1/S phase cell cycle transition.

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