RNA Editing by ADAR Adenosine Deaminases in the Cell Models of CAG Repeat Expansion Diseases: Significant Effect of Differentiation from Stem Cells into Brain Organoids in the Absence of Substantial Influence of CAG Repeats on the Level of Editing

IF 2.3 4区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY
Viacheslav V. Kudriavskii, Anton O. Goncharov, Artem V. Eremeev, Evgenii S. Ruchko, Vladimir A. Veselovsky, Ksenia M. Klimina, Alexandra N. Bogomazova, Maria A. Lagarkova, Sergei A. Moshkovskii, Anna A. Kliuchnikova
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Abstract

Expansion of CAG repeats in certain genes is a known cause of several neurodegenerative diseases, but exact mechanism behind this is not yet fully understood. It is believed that the double-stranded RNA regions formed by CAG repeats could be harmful to the cell. This study aimed to test the hypothesis that these RNA regions might potentially interfere with ADAR RNA editing enzymes, leading to the reduced A-to-I editing of RNA and activation of the interferon response. We studied induced pluripotent stem cells (iPSCs) derived from the patients with Huntington’s disease or ataxia type 17, as well as midbrain organoids developed from these cells. A targeted panel for next-generation sequencing was used to assess editing in the specific RNA regions. Differentiation of iPSCs into brain organoids led to increase in the ADAR2 gene expression and decrease in the expression of protein inhibitors of RNA editing. As a result, there was increase in the editing of specific ADAR2 substrates, which allowed identification of differential substrates of ADAR isoforms. However, comparison of the pathology and control groups did not show differences in the editing levels among the iPSCs. Additionally, brain organoids with 42-46 CAG repeats did not exhibit global changes. On the other hand, brain organoids with the highest number of CAG repeats in the huntingtin gene (76) showed significant decrease in the level of RNA editing of specific transcripts, potentially involving ADAR1. Notably, editing of the long non-coding RNA PWAR5 was nearly absent in this sample. It could be stated in conclusion that in most cultures with repeat expansion, the hypothesized effect on RNA editing was not confirmed.

Abstract Image

CAG 重复序列扩增疾病细胞模型中 ADAR 腺苷脱氨酶的 RNA 编辑:在 CAG 重复序列对编辑水平没有实质性影响的情况下,从干细胞分化为脑器官组织的显著效果。
某些基因中 CAG 重复序列的扩展是导致多种神经退行性疾病的已知原因,但其背后的确切机制尚未完全明了。人们认为,CAG重复序列形成的双链RNA区域可能对细胞有害。本研究旨在验证这样一个假设,即这些RNA区域可能会干扰ADAR RNA编辑酶,导致RNA的A-to-I编辑减少并激活干扰素反应。我们研究了从亨廷顿氏病或17型共济失调患者身上提取的诱导多能干细胞(iPSCs)以及由这些细胞培养的中脑器官组织。利用下一代测序的靶向面板来评估特定 RNA 区域的编辑。将iPSCs分化成脑器官组织后,ADAR2基因的表达增加,RNA编辑蛋白抑制剂的表达减少。因此,特定 ADAR2 底物的编辑量增加,这使得 ADAR 异构体的不同底物得以鉴定。然而,病理组与对照组的比较并未显示出 iPSCs 之间编辑水平的差异。此外,带有 42-46 个 CAG 重复序列的脑器官组织也没有表现出整体变化。另一方面,亨廷基因(76)中 CAG 重复数最多的脑器官组织显示特定转录本的 RNA 编辑水平显著下降,可能涉及 ADAR1。值得注意的是,在该样本中,长非编码 RNA PWAR5 的编辑几乎不存在。总之,在大多数重复扩增的培养物中,假设的对 RNA 编辑的影响并未得到证实。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Biochemistry (Moscow)
Biochemistry (Moscow) 生物-生化与分子生物学
CiteScore
4.70
自引率
3.60%
发文量
139
审稿时长
2 months
期刊介绍: Biochemistry (Moscow) is the journal that includes research papers in all fields of biochemistry as well as biochemical aspects of molecular biology, bioorganic chemistry, microbiology, immunology, physiology, and biomedical sciences. Coverage also extends to new experimental methods in biochemistry, theoretical contributions of biochemical importance, reviews of contemporary biochemical topics, and mini-reviews (News in Biochemistry).
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