单碱基置换导致 PKD2 基因双外显子跳变事件：常染色体显性多囊肾患者外显子组测序的异常分子发现

Journal of Clinical Medicine Pub Date : 2024-08-09 DOI:10.3390/jcm13164682

E. De Paolis, G. Raspaglio, Nunzia Ciferri, Ilaria Zangrilli, Claudio Ricciardi Tenore, Andrea Urbani, Pietro Manuel Ferraro, Angelo Minucci, P. Concolino

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引用次数: 0

摘要

背景：多囊肾病 2（PKD2）基因中的致病变异与大约 30% 的常染色体显性多囊肾病（ADPKD）相关。近年来，高通量测序技术大大增加了在受影响患者中发现变异的数量。在这里，我们描述了在一名意大利男性 ADPKD 患者中发现的 PKD2 剪接变异 c.1717-2A>G 的特殊作用。该变异导致了两个连续外显子的不寻常和罕见的跳过，造成了一个大的框内缺失。研究方法使用下一代测序 (NGS) 分析 Clinical Exome Solution® （SOPHiA Genetics）对该患者进行基因评估。使用 SOPHiA DDM 平台（SOPHiA Genetics）进行生物信息学分析。致病性预测是通过整合几种硅学工具进行的。利用反转录 PCR 和 cDNA 测序对 RNA 进行了评估，以检验变异体对 PKD2 剪接的影响。结果显示NGS 发现了位于内含子 7 规范剪接位点的 PKD2 c.1717-2A>G 变异。基于 RNA 的分析证明，这一罕见变异预计会对剪接产生重大影响。我们发现了一种转录本，其特点是同时跳过第 8 和第 9 号外显子，保留阅读框并合并第 7-10 号外显子。结论：我们首次描述了一名受 ADPKD 影响的患者因 PKD2 基因中存在单碱基置换而导致的双外显子跳越事件。我们认为这种罕见机制的分子基础在于内含子移除的特定顺序。这一发现代表了 PKD2 基因中一种替代性和不寻常剪接机制的新证据，为 ADPKD 的发病机制增添了新的见解。

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Single-Base Substitution Causing Dual-Exon Skipping Event in PKD2 Gene: Unusual Molecular Finding from Exome Sequencing in a Patient with Autosomal Dominant Polycystic Kidney Disease

Background: Pathogenic variants in the Polycystic Kidney Disease 2 (PKD2) gene are associated with Autosomal Dominant Polycystic Kidney Disease (ADPKD) in approximately 30% of cases. In recent years, the high-throughput sequencing techniques have significantly increased the number of variants identified in affected patients. Here, we described the peculiar effect of a PKD2 splicing variant, the c.1717-2A>G, identified in an Italian male patient with ADPKD. This variant led to the unusual and rare skipping of two consecutive exons, causing a large in-frame deletion. Methods: The genetic evaluation of the patient was performed using the Next-Generation Sequencing (NGS) assay Clinical Exome Solution® (SOPHiA Genetics). Bioinformatics analysis was performed using the SOPHiA DDM platform (SOPHiA Genetics). Prediction of pathogenicity was carried out by integrating several in silico tools. RNA evaluation was performed to test the effect of the variant on the PKD2 splicing using a Reverse-Transcription PCR coupled with cDNA sequencing. Results: NGS revealed the presence of the PKD2 c.1717-2A>G variant that lies in the canonical splice site of intron 7. This rare variant was predicted to have a significant impact on the splicing, proved by the RNA-based analysis. We identified the presence of a transcript characterised by the simultaneous skipping of exons 8 and 9, with a retained reading frame and the merging of exons 7–10. Conclusions: We described for the first time a dual-exon skip event related to the presence of a single-base substitution in the PKD2 gene in an ADPKD-affected patient. We assumed that the molecular basis of such a rare mechanism lies in the specific order of intron removal. The finding represents novel evidence of an alternative and unusual splicing mechanism in the PKD2 gene, adding insights to the pathogenesis of the ADPKD.

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Journal of Clinical Medicine

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