与复杂性小眼症有关的新非编码 RARB 变异改变了一个假定的调控元件

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-01-27 DOI:10.1155/2024/6619280
Maria R. Replogle, Samuel Thompson, Linda M. Reis, Elena V. Semina
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引用次数: 0

摘要

视黄酸受体 beta(RARB)是一种转录调节因子,在眼部发育过程中对协调视黄酸(RA)介导的形态发生运动、细胞生长和分化至关重要。功能缺失或增益的 RARB 编码变异与小眼症、黑眼症和前节段缺陷有关。我们在一名患有复杂性小眼症和严重的全身发育迟缓的患者身上发现了一个位于 RARB 第一个内含子保守区(CR1)的新变异 c.157+1895G>A。基于表型重叠,我们通过硅学和功能研究进一步调查了该变异对 mRNA 剪接和/或转录调控可能产生的影响。硅学分析发现,三个剪接预测程序(HSF、SpliceAI 和 MaxEntScan)中的一个程序认为该变异可能存在替代剪接,而公开的 DNase 超敏反应、组蛋白修饰、染色质折叠和 ChIP-seq 数据集则有力地表明了该变异的调控功能。与 SpliceAI 和 MaxEntScan 的预测结果一致,体外微型基因测定显示 RARB mRNA 的剪接没有受到影响。在人类晶状体上皮细胞中使用荧光素酶报告实验评估 CR1 的调控作用,结果表明在野生型 CR1 存在的情况下,RARB 启动子的活性显著增加。在携带 c.157+1895G>A 变异的 CR1 存在的情况下,该活性进一步显著增加,这表明该变异可能会促进 RARB 在人体细胞中的过表达。在人类晶状体上皮细胞中诱导 RARB 过表达会导致细胞增殖增加和 FOXC1 表达升高,FOXC1 是已知的 RA 信号转导下游靶标,也是一种转录因子,其下调和上调与 RARB 光谱重叠的眼部表型相关。这些结果支持 CR1 基因的调控作用,并表明影响该区域的 c.157+1895G>A 基因变异可能会改变 RARB 的正常调控,并因此改变其下游基因,从而可能导致发育异常。
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A De Novo Noncoding RARB Variant Associated with Complex Microphthalmia Alters a Putative Regulatory Element

Retinoic acid receptor beta (RARB) is a transcriptional regulator crucial for coordinating retinoic acid- (RA-) mediated morphogenic movements, cell growth, and differentiation during eye development. Loss- or gain-of-function RARB coding variants have been associated with microphthalmia, coloboma, and anterior segment defects. We identified a de novo variant c.157+1895G>A located within a conserved region (CR1) in the first intron of RARB in an individual with complex microphthalmia and significant global developmental delay. Based on the phenotypic overlap, we further investigated the possible effects of the variant on mRNA splicing and/or transcriptional regulation through in silico and functional studies. In silico analysis identified the possibility of alternative splicing, suggested by one out of three (HSF, SpliceAI, and MaxEntScan) splicing prediction programs, and a strong indication of regulatory function based on publicly available DNase hypersensitivity, histone modification, chromatin folding, and ChIP-seq data sets. Consistent with the predictions of SpliceAI and MaxEntScan, in vitro minigene assays showed no effect on RARB mRNA splicing. Evaluation of CR1 for a regulatory role using luciferase reporter assays in human lens epithelial cells demonstrated a significant increase in the activity of the RARB promoter in the presence of wild-type CR1. This activity was further significantly increased in the presence of CR1 carrying the c.157+1895G>A variant, suggesting that the variant may promote RARB overexpression in human cells. Induction of RARB overexpression in human lens epithelial cells resulted in increased cell proliferation and elevated expression of FOXC1, a known downstream target of RA signaling and a transcription factor whose down- and upregulation is associated with ocular phenotypes overlapping the RARB spectrum. These results support a regulatory role for the CR1 element and suggest that the de novo c.157+1895G>A variant affecting this region may alter the proper regulation of RARB and, as a result, its downstream genes, possibly leading to abnormal development.

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