利用遗传性视网膜疾病的体外模型发现外显子剪接变体。

IF 3.3 Q2 GENETICS & HEREDITY HGG Advances Pub Date : 2024-09-30 DOI:10.1016/j.xhgg.2024.100357
Nathaniel K Mullin, Laura R Bohrer, Kristin R Anfinson, Jeaneen L Andorf, Robert F Mullins, Budd A Tucker, Edwin M Stone
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引用次数: 0

摘要

正确识别致病基因变异的分子后果对于开发等位基因特异性疗法至关重要。然而,仅通过基因序列分析,这种分子效应可能仍然模糊不清。在这里,我们发现了外显子密码子改变变异,预测这些变异也会在遗传性视网膜疾病中破坏正常的 RNA 剪接。NR2E3 c.932G>A(p.Arg311Gln)是与增强 S 锥体综合征(ESCS)相关的常见变异。以前使用诱变 cDNA 构建物进行的研究表明,NR2E3 第 311 位的精氨酸到谷氨酰胺的置换并不会显著降低杆特异性转录因子的功能。我们利用视网膜器官组织探索了在人类杆状感光细胞发育过程中内源表达 NR2E3 c.932G>A 的分子后果。携带 NR2E3 c.932G>A 等位基因的视网膜器官组织表达了一个转录本,其中配体结合域内的第 6 号外显子缺失了 186 个核苷酸。在对照组器官组织或对照组人类供体视网膜样本中均未检测到这种短转录本。含有 NR2E3 第 5 和第 6 外显子的迷你基因显示,c.932G>A 变异足以导致观察到的剪接缺陷。这些结果支持了这样的假设,即致病性 NR2E3 c.932G>A 变体是通过导致剪接缺陷而不是之前认为的氨基酸置换导致感光细胞疾病的。它们还解释了 Arg311Gln 对 NR2E3 体外功能相对温和的影响。我们还利用硅预测工具表明,类似的变化很可能会影响其他遗传性视网膜疾病变异基因,如 CEP290、ABCA4 和 BEST1。
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Exonic splice variant discovery using in vitro models of inherited retinal disease.

Correct identification of the molecular consequences of pathogenic genetic variants is essential to the development of allele-specific therapies. However, such molecular effects may remain ambiguous following genetic sequence analysis alone. Here, we identify exonic codon-altering variants that are also predicted to disrupt normal RNA splicing in the context of inherited retinal disease. NR2E3 c.932G>A (p.Arg311Gln) is a variant commonly associated with enhanced S cone syndrome. Previous studies using mutagenized cDNA constructs have shown that the arginine to glutamine substitution at position 311 of NR2E3 does not meaningfully diminish function of the rod-specific transcription factor. Using retinal organoids, we explored the molecular consequences of NR2E3 c.932G>A when expressed endogenously during human rod photoreceptor cell development. Retinal organoids carrying the NR2E3 c.932G>A allele expressed a transcript containing a 186-nucleotide deletion of exon 6 within the ligand binding domain. This short transcript was not detected in control organoids or control human donor retina samples. A minigene containing exons 5 and 6 of NR2E3 showed sufficiency of the c.932G>A variant to cause the observed splicing defect. These results support the hypothesis that the pathogenic NR2E3 c.932G>A variant leads to photoreceptor disease by causing a splice defect and not through an amino acid substitution as previously supposed. They also explain the relatively mild effect of Arg311Gln on NR2E3 function in vitro. We also used in silico prediction tools to show that similar changes are likely to affect other inherited retinal disease variants in genes such as CEP290, ABCA4, and BEST1.

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来源期刊
HGG Advances
HGG Advances Biochemistry, Genetics and Molecular Biology-Molecular Medicine
CiteScore
4.30
自引率
4.50%
发文量
69
审稿时长
14 weeks
期刊最新文献
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