DYT-THAP1: exploring gene expression in fibroblasts for potential biomarker discovery

IF 1.6 4区 医学 Q3 CLINICAL NEUROLOGY
Sokhna Haissatou Diaw, Sylvie Delcambre, Christoph Much, Fabian Ott, Vladimir S. Kostic, Agata Gajos, Alexander Münchau, Simone Zittel, Hauke Busch, Anne Grünewald, Christine Klein, Katja Lohmann
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Abstract

Dystonia due to pathogenic variants in the THAP1 gene (DYT-THAP1) shows variable expressivity and reduced penetrance of ~ 50%. Since THAP1 encodes a transcription factor, modifiers influencing this variability likely operate at the gene expression level. This study aimed to assess the transferability of differentially expressed genes (DEGs) in neuronal cells related to pathogenic variants in the THAP1 gene, which were previously identified by transcriptome analyses. For this, we performed quantitative (qPCR) and Digital PCR (dPCR) in cultured fibroblasts. RNA was extracted from THAP1 manifesting (MMCs) and non-manifesting mutation carriers (NMCs) as well as from healthy controls. The expression profiles of ten of 14 known neuronal DEGs demonstrated differences in fibroblasts between these three groups. This included transcription factors and targets (ATF4, CLN3, EIF2A, RRM1, YY1), genes involved in G protein-coupled receptor signaling (BDKRB2, LPAR1), and a gene linked to apoptosis and DNA replication/repair (CRADD), which all showed higher expression levels in MMCs and NMCs than in controls. Moreover, the analysis of genes linked to neurological disorders (STXBP1, TOR1A) unveiled differences in expression patterns between MMCs and controls. Notably, the genes CUEDC2, DRD4, ECH1, and SIX2 were not statistically significantly differentially expressed in fibroblast cultures. With > 70% of the tested genes being DEGs also in fibroblasts, fibroblasts seem to be a suitable model for DYT-THAP1 research despite some restrictions. Furthermore, at least some of these DEGs may potentially also serve as biomarkers of DYT-THAP1 and influence its penetrance and expressivity.

Abstract Image

DYT-THAP1:探索成纤维细胞中的基因表达,发现潜在的生物标记物
由 THAP1 基因致病变体引起的肌张力障碍(DYT-THAP1)表现出不同的表达性和约 50% 的低渗透性。由于 THAP1 编码一种转录因子,影响这种变异性的修饰因子可能在基因表达水平上起作用。本研究旨在评估神经元细胞中与 THAP1 基因致病变异相关的差异表达基因(DEGs)的转移性,这些基因之前已通过转录组分析确定。为此,我们在培养的成纤维细胞中进行了定量 (qPCR) 和数字 PCR (dPCR)。我们从THAP1显性突变携带者(MMCs)、非显性突变携带者(NMCs)以及健康对照组中提取了 RNA。在 14 个已知神经元 DEGs 中,有 10 个的表达谱在这三个群体的成纤维细胞中显示出差异。其中包括转录因子和靶标(ATF4、CLN3、EIF2A、RRM1、YY1)、参与 G 蛋白偶联受体信号转导的基因(BDKRB2、LPAR1)以及与细胞凋亡和 DNA 复制/修复相关的基因(CRADD),这些基因在 MMCs 和 NMCs 中的表达水平均高于对照组。此外,与神经系统疾病相关的基因(STXBP1、TOR1A)的分析也揭示了 MMCs 和对照组之间表达模式的差异。值得注意的是,CUEDC2、DRD4、ECH1 和 SIX2 等基因在成纤维细胞培养物中的表达没有明显的统计学差异。由于成纤维细胞中也有 70% 的受测基因是 DEGs,因此尽管存在一些限制,成纤维细胞似乎仍是 DYT-THAP1 研究的合适模型。此外,这些 DEGs 中至少有一些还可能作为 DYT-THAP1 的生物标记物,并影响其穿透性和表达性。
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来源期刊
Neurogenetics
Neurogenetics 医学-临床神经学
CiteScore
3.90
自引率
0.00%
发文量
24
审稿时长
6 months
期刊介绍: Neurogenetics publishes findings that contribute to a better understanding of the genetic basis of normal and abnormal function of the nervous system. Neurogenetic disorders are the main focus of the journal. Neurogenetics therefore includes findings in humans and other organisms that help understand neurological disease mechanisms and publishes papers from many different fields such as biophysics, cell biology, human genetics, neuroanatomy, neurochemistry, neurology, neuropathology, neurosurgery and psychiatry. All papers submitted to Neurogenetics should be of sufficient immediate importance to justify urgent publication. They should present new scientific results. Data merely confirming previously published findings are not acceptable.
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