Identification of novel 3D-genome altering and complex structural variants underlying retinitis pigmentosa type 17 through a multistep and high-throughput approach.

IF 2.8 3区 生物学 Q2 GENETICS & HEREDITY Frontiers in Genetics Pub Date : 2024-10-23 eCollection Date: 2024-01-01 DOI:10.3389/fgene.2024.1469686
Suzanne E de Bruijn, Daan M Panneman, Nicole Weisschuh, Elizabeth L Cadena, Erica G M Boonen, Lara K Holtes, Galuh D N Astuti, Frans P M Cremers, Nico Leijsten, Jordi Corominas, Christian Gilissen, Anna Skowronska, Jessica Woodley, Andrew D Beggs, Vasileios Toulis, Di Chen, Michael E Cheetham, Alison J Hardcastle, Terri L McLaren, Tina M Lamey, Jennifer A Thompson, Fred K Chen, John N de Roach, Isabella R Urwin, Lori S Sullivan, Susanne Roosing
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引用次数: 0

Abstract

Introduction: Autosomal dominant retinitis pigmentosa type 17 (adRP, type RP17) is caused by complex structural variants (SVs) affecting a locus on chromosome 17 (chr17q22). The SVs disrupt the 3D regulatory landscape by altering the topologically associating domain (TAD) structure of the locus, creating novel TAD structures (neo-TADs) and ectopic enhancer-gene contacts. Currently, screening for RP17-associated SVs is not included in routine diagnostics given the complexity of the variants and a lack of cost-effective detection methods. The aim of this study was to accurately detect novel RP17-SVs by establishing a systematic and efficient workflow.

Methods: Genetically unexplained probands diagnosed with adRP (n = 509) from an international cohort were screened using a smMIPs or genomic qPCR-based approach tailored for the RP17 locus. Suspected copy number changes were validated using high-density SNP-array genotyping, and SV breakpoint characterization was performed by mutation-specific breakpoint PCR, genome sequencing and, if required, optical genome mapping. In silico modeling of novel SVs was performed to predict the formation of neo-TADs and whether ectopic contacts between the retinal enhancers and the GDPD1-promoter could be formed.

Results: Using this workflow, potential RP17-SVs were detected in eight probands of which seven were confirmed. Two novel SVs were identified that are predicted to cause TAD rearrangement and retinal enhancer-GDPD1 contact, one from Germany (DE-SV9) and three with the same SV from the United States (US-SV10). Previously reported RP17-SVs were also identified in three Australian probands, one with UK-SV2 and two with SA-SV3.

Discussion: In summary, we describe a validated multi-step pipeline for reliable and efficient RP17-SV discovery and expand the range of disease-associated SVs. Based on these data, RP17-SVs can be considered a frequent cause of adRP which warrants the inclusion of RP17-screening as a standard diagnostic test for this disease.

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通过多步骤和高通量方法鉴定 17 型视网膜色素变性的新型三维基因组改变和复杂结构变异。
导言:17型常染色体显性色素性视网膜炎(adRP,RP17型)是由影响17号染色体(chr17q22)上一个基因座的复杂结构变异(SVs)引起的。SVs 通过改变基因座的拓扑关联域(TAD)结构、创建新型 TAD 结构(新 TADs)和异位增强子-基因接触来破坏三维调控格局。目前,由于变异的复杂性和缺乏具有成本效益的检测方法,RP17 相关 SV 的筛查尚未纳入常规诊断中。本研究旨在通过建立系统、高效的工作流程,准确检测新型 RP17-SVs :方法:使用为 RP17 基因座量身定制的基于 smMIPs 或基因组 qPCR 的方法,对来自国际队列的诊断为 adRP 的遗传原因不明的疑似患者(n = 509)进行筛查。通过高密度 SNP 阵列基因分型验证了可疑的拷贝数变化,并通过突变特异性断点 PCR、基因组测序以及必要的光学基因组图谱进行了 SV 断点鉴定。对新型SV进行了硅建模,以预测新TAD的形成以及视网膜增强子和GDPD1启动子之间是否会形成异位接触:结果:利用这一工作流程,在八名受试者中检测到了潜在的 RP17-SV,其中七名受试者得到了证实。发现了两个可导致 TAD 重排和视网膜增强子-GDPD1 接触的新型 SV,其中一个来自德国(DE-SV9),另外三个来自美国(US-SV10)。此前报道的 RP17-SV 也在三名澳大利亚的受试者中发现,其中一名受试者为 UK-SV2,两名受试者为 SA-SV3:总之,我们描述了一个经过验证的多步骤管道,用于可靠、高效地发现 RP17-SV,并扩大了疾病相关 SV 的范围。基于这些数据,RP17-SV 可被视为 adRP 的常见病因,因此有必要将 RP17 筛查作为该疾病的标准诊断检测。
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来源期刊
Frontiers in Genetics
Frontiers in Genetics Biochemistry, Genetics and Molecular Biology-Molecular Medicine
CiteScore
5.50
自引率
8.10%
发文量
3491
审稿时长
14 weeks
期刊介绍: Frontiers in Genetics publishes rigorously peer-reviewed research on genes and genomes relating to all the domains of life, from humans to plants to livestock and other model organisms. Led by an outstanding Editorial Board of the world’s leading experts, this multidisciplinary, open-access journal is at the forefront of communicating cutting-edge research to researchers, academics, clinicians, policy makers and the public. The study of inheritance and the impact of the genome on various biological processes is well documented. However, the majority of discoveries are still to come. A new era is seeing major developments in the function and variability of the genome, the use of genetic and genomic tools and the analysis of the genetic basis of various biological phenomena.
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