ADAR-mediated RNA editing in non-coding RNA sequences

Adenosine to inosine (A-to-I) RNA editing is the most abundant editing event in animals. It converts adenosine to inosine in double-stranded RNA regions through the action of the adenosine deaminase acting on RNA (ADAR) proteins. Editing of pre-mRNA coding regions can alter the protein codon and increase functional diversity. However, most of the A-to-I editing sites occur in the non-coding regions of pre-mRNA or mRNA and non-coding RNAs. Untranslated regions (UTRs) and introns are located in pre-mRNA non-coding regions, thus A-to-I editing can influence gene expression by nuclear retention, degradation, alternative splicing, and translation regulation. Non-coding RNAs such as microRNA (miRNA), small interfering RNA (siRNA) and long non-coding RNA (lncRNA) are related to pre-mRNA splicing, translation, and gene regulation. A-to-I editing could therefore affect the stability, biogenesis, and target recognition of non-coding RNAs. Finally, it may influence the function of non-coding RNAs, resulting in regulation of gene expression. This review focuses on the function of ADAR-mediated RNA editing on mRNA non-coding regions (UTRs and introns) and non-coding RNAs (miRNA, siRNA, and lncRNA).     

哺乳动物中作用于非编码RNA的RNA编辑研究进展

RNA编辑是RNA转录过程中序列变化而引起的一种基因动态调控机制。腺苷脱氨酶（adenosine deaminases acting on RNA, ADAR）参与RNA编辑,将双链RNA中腺苷残基（A）转化为肌苷（I）,接着被转录和拼接成鸟苷（G）。由ADAR催化,作用于RNA的A-I型RNA编辑是人类最常见的转录后修饰。近年来,这种修饰不仅存在于编码RNA中,在非编码RNA（noncoding RNA, ncRNA）中也逐渐被发现,如microRNA（miRNA）、小分子干扰RNA（siRNA）、转运RNA（tRNA）和长链非编码RNA（lncRNA）。这种修饰可能通过对microRNA和mRNA之间结合位点创造或破坏,进而影响ncRNA的生物起源、稳定性和靶向识别功能。目前,对这种生物现象的机制及ADAR底物,尤其是在ncRNA中的特性仍然没有得到充分的认识。主要对哺乳动物中ncRNA上的RNA编辑进行总结,并列举一些阐明其生物学功能的计算方法。     

ADAR1介导的RNA编辑在血液肿瘤中的调控作用

RNA编辑是发生于双链RNA（dsRNA）上的一类重要转录后反应,可通过碱基插入、缺失或替换的方式改变RNA的核苷酸序列从而丰富转录组和蛋白质组水平的多样性。哺乳动物中最常见的RNA编辑是ADAR家族介导的腺嘌呤-次黄嘌呤编辑（A-to-I）,其在碱基配对过程中被识别为鸟嘌呤。人类转录组中已报道了数百万个A-to-I编辑位点,而ADAR1是最主要的催化酶。在血液肿瘤中,ADAR1的失调将直接影响基因编码区、非编码区和miRNA前体的A-to-I编辑状态,从而导致一系列分子事件改变,如蛋白质编码序列改变、内含子滞留、选择性剪接和miRNA生物发生受抑制。近年来研究发现,异常的RNA编辑导致分子调控网络的紊乱,促进细胞增殖、凋亡受阻和细胞耐药,是白血病干细胞（LSCs）生成和干性维持的重要因素。目前,以RNA编辑为靶点的新药（如rebecsinib）已经在动物实验中取得良好疗效。有别于传统抗肿瘤药,表观遗传抗肿瘤药有望克服血液肿瘤的耐药、复发难题,为患者提供全新治疗选择。本综述总结了ADAR1介导的RNA编辑在血液肿瘤中的作用机制及其生物学功能研究的进展,并探讨了其在药物研发和临床应用中的价值。     

A computational screen for site selective A-to-I editing detects novel sites in neuron specific Hu proteins

Background  

Several bioinformatic approaches have previously been used to find novel sites of ADAR mediated A-to-I RNA editing in human. These studies have discovered thousands of genes that are hyper-edited in their non-coding intronic regions, especially in alu retrotransposable elements, but very few substrates that are site-selectively edited in coding regions. Known RNA edited substrates suggest, however, that site selective A-to-I editing is particularly important for normal brain development in mammals.     

Modulation of ADAR1 editing activity by Z-RNA in vitro

RNA editing by A-to-I modification has been recognized as an important molecular mechanism for generating RNA and protein diversity. In mammals, it is mediated by a family of adenosine deaminases that act on RNAs (ADARs). The large version of the editing enzyme ADAR1 (ADAR1-L), expressed from an interferon-responsible promoter, has a Z-DNA/Z-RNA binding domain at its N-terminus. We have tested the in vitro ability of the enzyme to act on a 50 bp segment of dsRNA with or without a Z-RNA forming nucleotide sequence. A-to-I editing efficiency is markedly enhanced in presence of the sequence favoring Z-RNA. In addition, an alteration in the pattern of modification along the RNA duplex becomes evident as reaction times decrease. These results suggest that the local conformation of dsRNA molecules might be an important feature for target selectivity by ADAR1 and other proteins with Z-RNA binding domains.