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ATM和ATR通路响应DNA损伤,对果蝇TAF1前体mRNA的可变剪接进行信号传导。

ATM and ATR pathways signal alternative splicing of Drosophila TAF1 pre-mRNA in response to DNA damage.

作者信息

Katzenberger Rebeccah J, Marengo Matthew S, Wassarman David A

机构信息

University of Wisconsin School of Medicine and Public Health, Department of Pharmacology, Madison, WI 53706, USA.

出版信息

Mol Cell Biol. 2006 Dec;26(24):9256-67. doi: 10.1128/MCB.01125-06. Epub 2006 Oct 9.

DOI:10.1128/MCB.01125-06
PMID:17030624
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1698527/
Abstract

Alternative pre-mRNA splicing is a major mechanism utilized by eukaryotic organisms to expand their protein-coding capacity. To examine the role of cell signaling in regulating alternative splicing, we analyzed the splicing of the Drosophila melanogaster TAF1 pre-mRNA. TAF1 encodes a subunit of TFIID, which is broadly required for RNA polymerase II transcription. We demonstrate that TAF1 alternative splicing generates four mRNAs, TAF1-1, TAF1-2, TAF1-3, and TAF1-4, of which TAF1-2 and TAF1-4 encode proteins that directly bind DNA through AT hooks. TAF1 alternative splicing was regulated in a tissue-specific manner and in response to DNA damage induced by ionizing radiation or camptothecin. Pharmacological inhibitors and RNA interference were used to demonstrate that ionizing-radiation-induced upregulation of TAF1-3 and TAF1-4 splicing in S2 cells was mediated by the ATM (ataxia-telangiectasia mutated) DNA damage response kinase and checkpoint kinase 2 (CHK2), a known ATM substrate. Similarly, camptothecin-induced upregulation of TAF1-3 and TAF1-4 splicing was mediated by ATR (ATM-RAD3 related) and CHK1. These findings suggest that inducible TAF1 alternative splicing is a mechanism to regulate transcription in response to developmental or DNA damage signals and provide the first evidence that the ATM/CHK2 and ATR/CHK1 signaling pathways control gene expression by regulating alternative splicing.

摘要

可变前体mRNA剪接是真核生物用来扩展其蛋白质编码能力的一种主要机制。为了研究细胞信号传导在调节可变剪接中的作用,我们分析了黑腹果蝇TAF1前体mRNA的剪接情况。TAF1编码TFIID的一个亚基,而TFIID是RNA聚合酶II转录广泛需要的。我们证明TAF1可变剪接产生四种mRNA,即TAF1-1、TAF1-2、TAF1-3和TAF1-4,其中TAF1-2和TAF1-4编码通过AT钩直接结合DNA的蛋白质。TAF1可变剪接以组织特异性方式受到调节,并响应电离辐射或喜树碱诱导的DNA损伤。使用药理抑制剂和RNA干扰来证明,电离辐射诱导的S2细胞中TAF1-3和TAF1-4剪接上调是由ATM(共济失调毛细血管扩张症突变)DNA损伤反应激酶和检查点激酶2(CHK2,一种已知的ATM底物)介导的。同样,喜树碱诱导的TAF1-3和TAF1-4剪接上调是由ATR(ATM-RAD3相关)和CHK1介导的。这些发现表明,可诱导的TAF1可变剪接是一种响应发育或DNA损伤信号来调节转录的机制,并提供了首个证据,即ATM/CHK2和ATR/CHK1信号通路通过调节可变剪接来控制基因表达。

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