Disruption of OVOL2 Distal Regulatory Elements as a Possible Mechanism Implicated in Corneal Endothelial Dystrophy

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-01-04 DOI:10.1155/2024/4450082
Lubica Dudakova, Lenka Noskova, Stanislav Kmoch, Martin Filipec, Ales Filous, Alice E. Davidson, Vasileios Toulis, Jana Jedlickova, Pavlina Skalicka, Hana Hartmannova, Viktor Stranecky, Jana Drabova, Drahuse Novotna, Marketa Havlovicova, Zdenek Sedlacek, Petra Liskova
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Abstract

The genetic architecture of corneal endothelial dystrophies remains unknown in a substantial number of affected individuals. The proband investigated in the current study was diagnosed in the neonatal period with bilateral corneal opacification due to primary endothelial cell dysfunction. Neither his parents nor his sister had signs of corneal disease. Conventional karyotyping revealed a de novo translocation involving chromosomes 3 and 20, t(3;20)(q25;p11-12). Following genome and targeted Sanger sequencing analysis, the breakpoints were mapped at the nucleotide level. Notably, the breakpoint on chromosome 20 was identified to lie within the same topologically associated domain (TAD) as corneal endothelial dystrophy-associated gene OVOL2, and it is predicted to disrupt distal enhancers. The breakpoint at chromosome 3 is located within intron 2 of PFN2, which is currently not associated with any human disease. Further interrogation of the proband’s genome failed to identify any additional potentially pathogenic variants in corneal endothelial dystrophy-associated genes. Disruption of a candidate cis-regulatory element and/or positional effects induced by translocation of OVOL2 to a novel genomic context may lead to an aberrant OVOL2 expression, a previously characterized disease mechanism of corneal endothelial dystrophy. Further research is necessary to explore how disruption of regulatory elements may elucidate genetically unsolved corneal endothelial dystrophies.

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OVOL2远端调控元件的破坏是角膜内皮营养不良的可能机制之一
在相当多的患者中,角膜内皮营养不良症的遗传结构仍然未知。本研究中调查的疑似患者在新生儿期被诊断出因原发性角膜内皮细胞功能障碍导致双侧角膜不透明。他的父母和姐姐都没有角膜病症状。常规核型检查发现,他的3号和20号染色体发生了新的易位,即t(3;20)(q25;p11-12)。经过基因组和靶向桑格测序分析,在核苷酸水平上绘制出了断点图。值得注意的是,20号染色体上的断点被确定位于与角膜内皮营养不良相关基因OVOL2相同的拓扑相关域(TAD)内,预计会破坏远端增强子。3 号染色体上的断点位于 PFN2 的 2 号内含子中,而 PFN2 目前与任何人类疾病无关。对该患者基因组的进一步检测未能在角膜内皮营养不良症相关基因中发现其他潜在的致病变异。OVOL2转位到一个新的基因组环境所引起的候选顺式调节元件的破坏和/或位置效应可能会导致OVOL2的异常表达,而这正是角膜内皮营养不良症以前所描述的一种疾病机制。有必要开展进一步的研究,探索调控元件的破坏如何可能阐明基因上尚未解决的角膜内皮营养不良症。
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CiteScore
7.20
自引率
4.30%
发文量
567
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