ARF 肿瘤抑制因子控制 Drosha 的翻译，以防止 Ras 驱动的转化。

The ARF tumor-suppressor controls Drosha translation to prevent Ras-driven transformation.

机构信息

1] BRIGHT Institute, Washington University School of Medicine, St Louis, MO, USA [2] Department of Internal Medicine, Division of Molecular Oncology, Washington University School of Medicine, St Louis, MO, USA [3] Department of Cell Biology, Siteman Cancer Center, Washington University School of Medicine, St Louis, MO, USA.

出版信息

Oncogene. 2014 Jan 16;33(3):300-7. doi: 10.1038/onc.2012.601. Epub 2013 Jan 14.

DOI:10.1038/onc.2012.601

PMID:23318441

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3934099/

Abstract

ARF is a multifunctional tumor suppressor that acts as both a sensor of oncogenic stimuli and as a key regulator of ribosome biogenesis. Recently, our group established the DEAD-box RNA helicase and microRNA (miRNA) microprocessor accessory subunit, DDX5, as a critical target of basal ARF function. To identify other molecular targets of ARF, we focused on known interacting proteins of DDX5 in the microprocessor complex. Drosha, the catalytic core of the microprocessor complex, has a critical role in the maturation of specific non-coding RNAs, including miRNAs and ribosomal RNAs (rRNAs). Here, we report that chronic or acute loss of Arf enhanced Drosha protein expression. This induction did not involve Drosha mRNA transcription or protein stability but rather relied on the increased translation of existing Drosha mRNAs. Enhanced Drosha expression did not alter global miRNA production but rather modified expression of a subset of miRNAs in the absence of Arf. Elevated Drosha protein levels were required to maintain the increased rRNA synthesis and cellular proliferation observed in the absence of Arf. Arf-deficient cells transformed by oncogenic Ras(V12) were dependent on increased Drosha expression as Drosha knockdown was sufficient to inhibit Ras-dependent cellular transformation. Thus, we propose that ARF regulates Drosha mRNA translation to prevent aberrant cell proliferation and Ras-dependent transformation.

摘要

ARF 是一种多功能肿瘤抑制因子，既能作为致癌刺激的传感器，又能作为核糖体生物发生的关键调节剂。最近，我们小组确定了 DEAD-box RNA 解旋酶和 microRNA（miRNA）微处理器辅助亚基 DDX5 是 ARF 基本功能的关键靶标。为了鉴定 ARF 的其他分子靶标，我们专注于 DDX5 在 microprocessor 复合物中的已知相互作用蛋白。microprocessor 复合物的催化核心 Drosha 在特定非编码 RNA（包括 miRNA 和核糖体 RNA（rRNA））的成熟过程中起着关键作用。在这里，我们报告慢性或急性 ARF 缺失增强了 Drosha 蛋白表达。这种诱导不涉及 Drosha mRNA 转录或蛋白稳定性，而是依赖于现有 Drosha mRNA 的翻译增加。增强的 Drosha 表达并没有改变全局 miRNA 的产生，而是在没有 ARF 的情况下改变了一组 miRNA 的表达。升高的 Drosha 蛋白水平是维持 ARF 缺失时观察到的 rRNA 合成和细胞增殖增加所必需的。由致癌 Ras(V12)转化的 ARF 缺陷细胞依赖于增加的 Drosha 表达，因为 Drosha 敲低足以抑制 Ras 依赖性细胞转化。因此，我们提出 ARF 通过调节 Drosha mRNA 翻译来防止异常细胞增殖和 Ras 依赖性转化。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7a5e/3934099/4237fc4befa7/nihms-550020-f0001.jpg

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ARF 肿瘤抑制因子控制 Drosha 的翻译，以防止 Ras 驱动的转化。

The ARF tumor-suppressor controls Drosha translation to prevent Ras-driven transformation.

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