RPE65基因变异p.(E519K)在83名受影响个体中导致一种新型显性成人起病性黄斑病变。

RPE65 Variant p.(E519K) Causes a Novel Dominant Adult-Onset Maculopathy in 83 Affected Individuals.

作者信息

Van Vooren Eline, Van Den Broeck Filip, Mahieu Quinten, Geens Eline, Van Heetvelde Mattias, De Bruyne Marieke, Van de Sompele Stijn, Uppal Sheetal, Poliakov Eugenia, Dhaenens Claire-Marie, Gregory-Evans Cheryl Y, Hoefsloot Lies, Gonzalez Adriana Iglesias, Kohl Susanne, Zuleger Theresia, Demaret Tanguy, Tuupanen Sari, Ruys Joke, Van Os Luc, Platteau Elise, Jacob Julie, Vermeer Sascha, Postelmans Laurence, Dahan Karin, Maystadt Isabelle, Rasquin Florence, Thiadens Alberta A H J, Stephenson Kirk A J, Sheri Narin, Smirnov Vasily, MacDonald Ian M, Gregory-Evans Kevin, Redmond T Michael, De Zaeytijd Julie, Leroy Bart P, Bauwens Miriam, De Baere Elfride

机构信息

Department of Biomolecular Medicine, Ghent University, Ghent, Belgium.

Center for Medical Genetics, Ghent University Hospital, Ghent, Belgium.

出版信息

Invest Ophthalmol Vis Sci. 2025 Sep 2;66(12):53. doi: 10.1167/iovs.66.12.53.

DOI:10.1167/iovs.66.12.53

PMID:40985799

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12468096/

Abstract

PURPOSE

Recessive RPE65-associated retinopathy is a well-known target for gene therapy, whereas dominant RPE65-associated retinopathy, due to the Irish founder variant p.(D477G), has been reported only once until now and is very rare. Here, we present the discovery of a novel, second dominant RPE65-associated retinopathy caused by variant c.1555G>A, p.(E519K).

METHODS

Genomic data was investigated in a Belgian discovery cohort (n = 2873) and an international replication cohort (n = 18,796) with inherited retinal disease (IRD). Heterozygous p.(E519K) individuals underwent extensive phenotyping. Haplotype phasing was based on long-read sequencing and microsatellite analysis. Variant p.(E519K) was assessed in vitro using an enzymatic assay, Western blotting, co-immunoprecipitation, cellular thermal shift assay (CETSA), minigene assays, and in silico using protein modeling (AlphaFold).

RESULTS

The monoallelic p.(E519K) variant was found in 83 affected individuals from Belgium, the Netherlands, France, and Canada, all of European ancestry. A shared region of 464 kilobases (kb) confirmed a founder effect. Variant p.(E519K) lowers RPE65 protein expression and enzymatic activity, with altered protein stability predicted and experimentally confirmed. Genotype-phenotype data support dominant inheritance and phenotypic variability, respectively, characterized by late-onset macular dystrophy with two main subtypes.

CONCLUSIONS

The discovery of a dominant RPE65-IRD due to founder variant p.(E519K) reduces the diagnostic gap in dominant IRD and highlights a novel target for therapy.

摘要

目的

隐性RPE65相关视网膜病变是基因治疗的一个众所周知的靶点，而由爱尔兰始祖变异p.(D477G)导致的显性RPE65相关视网膜病变，到目前为止仅被报道过一次，且非常罕见。在此，我们报告发现了一种由变异c.1555G>A、p.(E519K)引起的新型显性RPE65相关视网膜病变。

方法

在一个比利时发现队列（n = 2873）和一个国际复制队列（n = 18,796）中对患有遗传性视网膜疾病（IRD）的个体进行基因组数据研究。对杂合p.(E519K)个体进行了广泛的表型分析。单倍型分型基于长读长测序和微卫星分析。使用酶活性测定、蛋白质免疫印迹、免疫共沉淀、细胞热位移分析（CETSA）、小基因分析等方法对变异p.(E519K)进行体外评估，并使用蛋白质建模（AlphaFold）进行计算机模拟分析。

结果

在来自比利时、荷兰、法国和加拿大的83名受影响个体中发现了单等位基因p.(E519K)变异，所有个体均为欧洲血统。一个464千碱基（kb）的共享区域证实了始祖效应。变异p.(E519K)降低了RPE65蛋白表达和酶活性，预测并通过实验证实了蛋白质稳定性的改变。基因型-表型数据分别支持显性遗传和表型变异性，其特征为迟发性黄斑营养不良，有两种主要亚型。