a Univ Rennes , Inserm, EHESP, Irset (Institut de recherche en santé, environnement et travail)- UMR_S 1085 , Rennes , France.
b Univ Rennes , Inria, CNRS, IRISA F-35000 , Rennes , France.
RNA Biol. 2019 Jun;16(6):727-741. doi: 10.1080/15476286.2019.1581596. Epub 2019 Mar 20.
5-fluorouracil (5-FU) was isolated as an inhibitor of thymidylate synthase, which is important for DNA synthesis. The drug was later found to also affect the conserved 3'-5' exoribonuclease EXOSC10/Rrp6, a catalytic subunit of the RNA exosome that degrades and processes protein-coding and non-coding transcripts. Work on 5-FU's cytotoxicity has been focused on mRNAs and non-coding transcripts such as rRNAs, tRNAs and snoRNAs. However, the effect of 5-FU on long non-coding RNAs (lncRNAs), which include regulatory transcripts important for cell growth and differentiation, is poorly understood. RNA profiling of synchronized 5-FU treated yeast cells and protein assays reveal that the drug specifically inhibits a set of cell cycle regulated genes involved in mitotic division, by decreasing levels of the paralogous Swi5 and Ace2 transcriptional activators. We also observe widespread accumulation of different lncRNA types in treated cells, which are typically present at high levels in a strain lacking EXOSC10/Rrp6. 5-FU responsive lncRNAs include potential regulatory antisense transcripts that form double-stranded RNAs (dsRNAs) with overlapping sense mRNAs. Some of these transcripts encode proteins important for cell growth and division, such as the transcription factor Ace2, and the RNA exosome subunit EXOSC6/Mtr3. In addition to revealing a transcriptional effect of 5-FU action via DNA binding regulators involved in cell cycle progression, our results have implications for the function of putative regulatory lncRNAs in 5-FU mediated cytotoxicity. The data raise the intriguing possibility that the drug deregulates lncRNAs/dsRNAs involved in controlling eukaryotic cell division, thereby highlighting a new class of promising therapeutical targets.
5-氟尿嘧啶(5-FU)被分离出来作为胸苷酸合成酶的抑制剂,胸苷酸合成酶对 DNA 合成很重要。后来发现该药物还会影响保守的 3'-5'外切核糖核酸酶 EXOSC10/Rrp6,它是 RNA 外切体的催化亚基,可降解和加工蛋白编码和非编码转录本。对 5-FU 的细胞毒性的研究主要集中在 mRNA 和非编码转录本上,如 rRNA、tRNA 和 snoRNA。然而,5-FU 对长非编码 RNA(lncRNA)的影响,包括对细胞生长和分化很重要的调节转录本,知之甚少。对同步处理的酵母细胞进行 RNA 谱分析和蛋白质测定表明,该药物通过降低同源转录激活因子 Swi5 和 Ace2 的水平,特异性地抑制一组参与有丝分裂分裂的细胞周期调节基因。我们还观察到在处理过的细胞中广泛积累不同的 lncRNA 类型,这些类型在缺乏 EXOSC10/Rrp6 的菌株中通常以高水平存在。5-FU 响应的 lncRNA 包括可能的调节反义转录本,它们与重叠的有意义 mRNA 形成双链 RNA(dsRNA)。其中一些转录本编码对细胞生长和分裂很重要的蛋白质,如转录因子 Ace2 和 RNA 外切体亚基 EXOSC6/Mtr3。除了揭示 5-FU 通过参与细胞周期进程的 DNA 结合调节剂的转录作用外,我们的结果还对假定的调节 lncRNA 在 5-FU 介导的细胞毒性中的功能具有启示意义。这些数据提出了一个有趣的可能性,即该药物使参与控制真核细胞分裂的 lncRNA/dsRNA 失活,从而突出了一类有前途的治疗靶标。