A08 Early transcriptional changes in human HD-IPS cell lines revealed by RNASEQ

Pathogenic mechanisms Pub Date : 2018-09-01 DOI:10.1136/JNNP-2018-EHDN.8

M. Figiel, Karolina Świtońska, Wojciech J. Szlachcic, Anna Philips, L. Handschuh, Michał Stelmaszczuk, Pawel Wojciechowski, M. Figlerowicz

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Abstract

HD is mainly a late-onset disorder, however, subtle symptoms in patients may occur years or even decades prior to diagnosis. Such changes at a molecular level may begin much earlier, even in stem cells. Here, we present a study defining the transcriptional profiles and early HD alterations in human HD-iPS cell lines. For the RNA sequencing analysis, we used three clonal HD lines with 71 CAG repeats, three juvenile HD clonal lines with 109 CAG repeats and control lines. HD-iPSC lines (71Q and 109Q) were compared with control lines where 82 significantly deregulated mRNAs were identified (30 downregulated and 52 upregulated). In addition 71Q lines were compared with control lines yielding 113 significantly deregulated mRNAs (33 downregulated and 80 upregulated). In the last group, in which 109Q lines were compared with control lines, 169 significantly deregulated mRNAs were identified (90 downregulated and 79 upregulated). The analysis revealed mRNAs which occurred in both HD lines (ex. OTOGL, TRIM69) but also many unique mRNAs, deregulated in 71Q (ex. PIWIL2, HIST1H3C) or HD109Q-iPSC lines (ex. TP53, CDKN1A). RNA sequencing was also focused on circular RNA (circRNA) profiling. Nearly 100 significantly deregulated circRNAs were identified, also showing many transcriptomic differences between 71Q and 109Q lines. The high-throughput RNA screening was followed by bioinformatics analyses, such as differential expression analysis and also over-representation and enrichment analyses which demonstrated several affected biological processes in iPSC. These processes were related with central nervous system development, disruption of the apoptosis pathway, enhanced DNA methylation and negative regulation of Wnt signaling pathway. RNA-seq and in silico analyses were then followed by experimental validation of the most deregulated and the most interesting mRNAs and digital droplet PCR for chosen circRNAs.

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RNASEQ揭示人HD-IPS细胞系早期转录变化

HD主要是一种迟发性疾病，然而，患者的细微症状可能在诊断前几年甚至几十年就出现了。这种分子水平上的变化可能开始得更早，甚至在干细胞中也是如此。在这里，我们提出了一项研究，定义了人类HD- ips细胞系的转录谱和早期HD改变。为了进行RNA测序分析，我们使用了3个CAG重复数为71的HD克隆系、3个CAG重复数为109的HD幼系和对照系。将HD-iPSC系(71Q和109Q)与对照系进行比较，鉴定出82个显著去调控的mrna(30个下调，52个上调)。此外，将71Q系与对照系进行比较，发现113个mrna显著去调控(33个下调，80个上调)。在最后一组中，将109Q细胞系与对照细胞系进行比较，鉴定出169个显著解除调控的mrna(90个下调，79个上调)。分析结果显示，在HD系(如OTOGL, TRIM69)中都存在mrna，但在71Q系(如PIWIL2, HIST1H3C)或HD109Q-iPSC系(如TP53, CDKN1A)中也存在许多独特的mrna。RNA测序也侧重于环状RNA (circRNA)分析。发现了近100个显著失调的环状rna，在71Q和109Q系之间也显示出许多转录组学差异。高通量RNA筛选之后进行生物信息学分析，如差异表达分析、过度表达和富集分析，这些分析显示了iPSC中几个受影响的生物过程。这些过程与中枢神经系统发育、细胞凋亡通路中断、DNA甲基化增强和Wnt信号通路负调控有关。然后进行rna测序和计算机分析，对最不受管制和最有趣的mrna进行实验验证，并对所选环状rna进行数字液滴PCR。

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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Pathogenic mechanisms

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