Slobodin Boris, Bahat Anat, Sehrawat Urmila, Becker-Herman Shirly, Zuckerman Binyamin, Weiss Amanda N, Han Ruiqi, Elkon Ran, Agami Reuven, Ulitsky Igor, Shachar Idit, Dikstein Rivka
Department of Biomolecular Sciences, The Weizmann Institute of Science, Rehovot 76100, Israel.
Department of Biomolecular Sciences, The Weizmann Institute of Science, Rehovot 76100, Israel.
Mol Cell. 2020 May 7;78(3):434-444.e5. doi: 10.1016/j.molcel.2020.03.022. Epub 2020 Apr 14.
Gene expression is regulated by the rates of synthesis and degradation of mRNAs, but how these processes are coordinated is poorly understood. Here, we show that reduced transcription dynamics of specific genes leads to enhanced mA deposition, preferential activity of the CCR4-Not complex, shortened poly(A) tails, and reduced stability of the respective mRNAs. These effects are also exerted by internal ribosome entry site (IRES) elements, which we found to be transcriptional pause sites. However, when transcription dynamics, and subsequently poly(A) tails, are globally altered, cells buffer mRNA levels by adjusting the expression of mRNA degradation machinery. Stress-provoked global impediment of transcription elongation leads to a dramatic inhibition of the mRNA degradation machinery and massive mRNA stabilization. Accordingly, globally enhanced transcription, such as following B cell activation or glucose stimulation, has the opposite effects. This study uncovers two molecular pathways that maintain balanced gene expression in mammalian cells by linking transcription to mRNA stability.
基因表达受mRNA合成和降解速率的调控,但这些过程如何协调却知之甚少。在此,我们表明特定基因转录动力学的降低会导致mA沉积增加、CCR4-Not复合物的优先活性、聚腺苷酸(poly(A))尾巴缩短以及相应mRNA稳定性降低。内部核糖体进入位点(IRES)元件也会产生这些效应,我们发现其为转录暂停位点。然而,当转录动力学以及随后的poly(A)尾巴发生全局性改变时,细胞会通过调节mRNA降解机制的表达来缓冲mRNA水平。应激引发的转录延伸全局性阻碍会导致mRNA降解机制的显著抑制和大量mRNA的稳定。相应地,全局性增强转录,如在B细胞激活或葡萄糖刺激后,会产生相反的效果。本研究揭示了两条通过将转录与mRNA稳定性相联系来维持哺乳动物细胞基因表达平衡的分子途径。
