ADAR-Mediated RNA Editing Predicts Progression and Prognosis of Gastric Cancer

阿达尔 RNA编辑 核糖核酸 生物 癌症 转录组 遗传学 癌症研究 基因 基因表达
作者
Tim Hon Man Chan,Aditi Qamra,Kar Tong Tan,Jing Guo,Henry Yang,Lihua Qi,Jaymie Siqi Lin,Vanessa Hui En Ng,Yangyang Song,HuiQi Hong,Su Ting Tay,Yujing Liu,Jeeyun Lee,Sun Young Rha,Feng Zhu,Jimmy Bok Yan So,Bin Tean Teh,Khay Guan Yeoh,Steve Rozen,Daniel G. Tenen,Patrick Tan,Leilei Chen
出处
期刊:Gastroenterology [Elsevier BV]
卷期号:151 (4): 637-650.e10 被引量:146
标识
DOI:10.1053/j.gastro.2016.06.043
摘要

Backgroud & Aims

Gastric cancer (GC) is the third leading cause of global cancer mortality. Adenosine-to-inosine RNA editing is a recently described novel epigenetic mechanism involving sequence alterations at the RNA but not DNA level, primarily mediated by ADAR (adenosine deaminase that act on RNA) enzymes. Emerging evidence suggests a role for RNA editing and ADARs in cancer, however, the relationship between RNA editing and GC development and progression remains unknown.

Methods

In this study, we leveraged on the next-generation sequencing transcriptomics to demarcate the GC RNA editing landscape and the role of ADARs in this deadly malignancy.

Results

Relative to normal gastric tissues, almost all GCs displayed a clear RNA misediting phenotype with ADAR1/2 dysregulation arising from the genomic gain and loss of the ADAR1 and ADAR2 gene in primary GCs, respectively. Clinically, patients with GCs exhibiting ADAR1/2 imbalance demonstrated extremely poor prognoses in multiple independent cohorts. Functionally, we demonstrate in vitro and in vivo that ADAR-mediated RNA misediting is closely associated with GC pathogenesis, with ADAR1 and ADAR2 playing reciprocal oncogenic and tumor suppressive roles through their catalytic deaminase domains, respectively. Using an exemplary target gene PODXL (podocalyxin-like), we demonstrate that the ADAR2-regulated recoding editing at codon 241 (His to Arg) confers a loss-of-function phenotype that neutralizes the tumorigenic ability of the unedited PODXL.

Conclusions

Our study highlights a major role for RNA editing in GC disease and progression, an observation potentially missed by previous next-generation sequencing analyses of GC focused on DNA alterations alone. Our findings also suggest new GC therapeutic opportunities through ADAR1 enzymatic inhibition or the potential restoration of ADAR2 activity.

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