Mechanisms of pathogenicity and the quest for genetic modifiers of kidney disease in branchiootorenal syndrome

NDT Plus Pub Date : 2023-10-13 DOI:10.1093/ckj/sfad260
Sebastian Sewerin, Charlotte Aurnhammer, Cene Skubic, Kaja Blagotinšek Cokan, Jera Jeruc, Damjana Rozman, Frederick Pfister, Katalin Dittrich, Brigitte Mayer, Ria Schönauer, Friederike Petzold, Jan Halbritter
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Abstract

Abstract Background Branchiootorenal (BOR) syndrome is an autosomal dominant disorder caused by pathogenic EYA1 variants and clinically characterized by auricular malformations with hearing loss, branchial arch anomalies, and congenital anomalies of the kidney and urinary tract (CAKUT). BOR phenotypes are highly variable and heterogenous. While random monoallelic expression is assumed to explain this phenotypic heterogeneity, the potential role of modifier genes has not yet been explored. Methods Through thorough phenotyping and exome sequencing, we studied one family with disease presentation in at least four generations in both clinical and genetic terms. Functional investigation of the single associated EYA1 variant c.1698+1G>A included splice site analysis and assessment of EYA1 distribution in patient-derived fibroblasts. The candidate modifier gene CYP51A1 was evaluated by histopathological analysis of murine CYP51A1+/− kidneys. As the gene encodes the enzyme Lanosterol 14α-demethylase, we assessed sterol intermediates in patient blood samples as well. Results The EYA1 variant c.1698+1G>A resulted in functional deletion of the EYA domain by exon skipping. The EYA domain mediates protein-protein interactions between EYA1 and co-regulators of transcription. EYA1 abundance was reduced in the nuclear compartment of patient-derived fibroblasts, suggesting impaired nuclear translocation of these protein complexes. Within the affected family, renal phenotypes spanned from normal kidney function in adulthood to chronic kidney failure in infancy. By analyzing exome sequencing data for variants segregating with an effect on the kidney, we identified a canonical splice site alteration in CYP51A1 as the strongest candidate variant, potentially playing a role as genetic modifier. Conclusions In this study, we demonstrate pathogenicity of EYA1 c.1698+1G>A, propose a mechanism for dysfunction of mutant EYA1, and conjecture CYP51A1 as a potential genetic modifier of renal involvement in BOR syndrome.
枝毛肾综合征肾病的致病性机制和基因修饰因子的探索
背景Branchiootorenal (BOR)综合征是一种常染色体显性遗传病,由致病性EYA1变异引起,临床表现为耳廓畸形伴听力损失、鳃裂弓异常、先天性肾尿路异常(CAKUT)。BOR表型是高度可变和异质性的。虽然假设随机的单等位基因表达可以解释这种表型异质性,但尚未探索修饰基因的潜在作用。方法通过彻底的表型分型和外显子组测序,我们研究了一个在临床和遗传方面至少有四代疾病表现的家庭。单个相关的EYA1变异c.1698+1G>A的功能研究包括剪接位点分析和EYA1在患者来源的成纤维细胞中的分布评估。候选修饰基因CYP51A1通过小鼠CYP51A1+/−肾脏的组织病理学分析进行评估。由于该基因编码羊毛甾醇14α-去甲基酶,我们也评估了患者血液样本中的甾醇中间体。结果EYA突变体c.1698+1G>A通过外显子跳变导致EYA结构域的功能性缺失。EYA结构域介导EYA1和转录共调节因子之间的蛋白-蛋白相互作用。患者源性成纤维细胞的核室中EYA1丰度降低,表明这些蛋白复合物的核易位受损。在受影响的家族中,肾脏表型从成年期的正常肾功能到婴儿期的慢性肾衰竭。通过分析对肾脏有影响的变异分离的外显子组测序数据,我们确定了CYP51A1的典型剪接位点改变是最强的候选变异,可能发挥遗传修饰因子的作用。在本研究中,我们证实了EYA1 c.1698+1G>A的致病性,提出了突变体EYA1功能障碍的机制,并推测CYP51A1是BOR综合征肾脏受累的潜在遗传修饰因子。
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