在肝细胞癌和相关的ADAR1- hi癌症中,wa位点ADAR1 A-to-I脱胺是致突变的基因组驱动因素的推定证据

R. Lindley, E. Steele
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引用次数: 1

摘要

在肝细胞癌(HCC)中存在RNA编辑酶ADAR1的过表达。此外,HCC中突出的基因组体细胞突变特征几乎完全集中在A:T碱基对上的突变,其中A-to- g突变远远超过T-to- c突变(当在非转录链上读取时)。这种极端的转录链偏突变特征的明确机制尚未得到明确证明,据推测与ADAR1脱氨酶的过表达有关。这种链偏置的标准描述名义上被称为“转录偶联损伤”(TCD),以区别于更传统的“转录偶联修复”(TCR)。结果表明,TCD描述不能满足分子证据的所有特征。传统观点认为,ADAR1在转录本的双链RNA茎环结构中靶向wa位点的腺苷编辑为肌苷(I)。在这里,我们表明,这些突变特征的分子和细胞数据提供了强有力的推定证据,表明adar1介导的a -to- i脱胺在wa位点作为肝细胞和可能其他相关ADAR1-Hi癌症的致突变驱动因素,在a:T碱基对上显示偏倚突变特征。
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Presumptive Evidence for ADAR1 A-to-I Deamination at WA-sites as the Mutagenic Genomic Driver in Hepatocellular and Related ADAR1-Hi Cancers
In hepatocellular cancer (HCC) there is an over expression of the RNA editing enzyme ADAR1. Further, the prominent genomic somatic mutation signature in HCC is almost exclusively focused on mutations at A:T base pairs where A-to-G mutations far exceed T-to-C mutations (when read on the non-transcribed strand). A clear mechanism for this extreme transcriptional strand biased mutation signature, putatively associated with over expression of ADAR1 deaminase, is yet to be explicitly demonstrated. The standard description of this strand bias has been nominally called “Transcription Coupled Damage” (TCD) to distinguish it from more conventional “Transcription Coupled Repair” (TCR). We show that the TCD description does not satisfy all features of the molecular evidence. The conventional view is that ADAR1 is thought to target adenosines at WA-sites for editing to inosine (I) in double stranded RNA stem-loop structures in transcripts. Here we show that the totality of the molecular and cellular data on these mutation signatures provides strong presumptive evidence for a clear role for ADAR1-mediated A-to-I deamination at WA-sites as the mutagenic driver in hepatocellular and possibly other related ADAR1-Hi cancers displaying biased mutation features at A:T base pairs.
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