Chaar Dima L, Jiang Chen, Coomson Sarah Y, Duot Matthieu, Sangani Poorab, Hoffmann Thomas J, Jorgenson Eric, Hufnagel Robert B, Hysi Pirro, Lachke Salil A, Choquet Hélène
Kaiser Permanente Northern California (KPNC), Division of Research, Pleasanton, California, United States.
Department of Biological Sciences, University of Delaware, Newark, Delaware, United States.
Invest Ophthalmol Vis Sci. 2025 Aug 1;66(11):32. doi: 10.1167/iovs.66.11.32.
To identify novel candidates for cataract and evaluate the contribution of protein-coding variants to cataract susceptibility.
We first leveraged a publicly-available browser, Genebass, to extract significant gene-based and single-variant association results for cataract in UK Biobank exomes (30,550 cataract cases and 364,291 controls). We then validated findings using genome-wide association study (GWAS) summary statistics from the Genetic Epidemiology Research in Adult Health and Aging (GERA) cohort (28,092 cataract cases and 50,487 controls). Finally, we examined the expression of the prioritized genes in lens tissue using the iSyTE database.
Gene-based association testing identified four genes (KDM5B, COL2A1, MIP and CRYBB2) that were associated with cataract (P < 2.50 × 10-6), of which one (KDM5B) was neither previously reported to be associated with congenital cataract nor reported in GWAS. Single-variant association testing identified seven variants within six genes (BFSP2, ZNF800, MIP, HERC2, TSPAN10 and CPAMD8) that were associated with cataract (P < 1.00 × 10-8). Among the identified cataract variants, we found four missense, one synonymous, one frameshift, and one stop-gained variant. Associations at COL2A1, HERC2, and ZNF800 were validated in GERA. Importantly, majority of prioritized cataract genes were robustly expressed in iSyTE lens data and were enriched in structural constituent of eye lens, lens development in camera-type eye, visual perception, and collagen type II trimer pathways.
Our results demonstrate the value of gene-based and single-variant association testing for understanding cataract etiology and uncovering novel genetic risk factors. Our findings also show that cataract-associated genes are significantly expressed in lens tissues and lens-related biological pathways.
鉴定白内障的新候选基因,并评估蛋白质编码变异对白内障易感性的影响。
我们首先利用一个公开可用的浏览器Genebass,从英国生物银行外显子组(30550例白内障病例和364291例对照)中提取基于基因和单变异体的白内障显著关联结果。然后,我们使用来自成人健康与衰老遗传流行病学研究(GERA)队列(28092例白内障病例和50487例对照)的全基因组关联研究(GWAS)汇总统计数据来验证研究结果。最后,我们使用iSyTE数据库检查了优先排序基因在晶状体组织中的表达。
基于基因的关联测试鉴定出四个与白内障相关的基因(KDM5B、COL2A1、MIP和CRYBB2)(P < 2.50×10 - 6),其中一个基因(KDM5B)此前既未被报道与先天性白内障相关,也未在GWAS中报道过。单变异体关联测试在六个基因(BFSP2、ZNF800、MIP、HERC2、TSPAN10和CPAMD8)中鉴定出七个与白内障相关的变异体(P < 1.00×10 - 8)。在鉴定出的白内障变异体中,我们发现了四个错义变异、一个同义变异、一个移码变异和一个获得性终止变异。COL2A1、HERC2和ZNF800的关联在GERA中得到了验证。重要的是,大多数优先排序的白内障基因在iSyTE晶状体数据中表达强烈,并且在晶状体的结构成分、相机型眼睛的晶状体发育、视觉感知和II型胶原三聚体途径中富集。
我们的结果证明了基于基因和单变异体关联测试对于理解白内障病因和发现新的遗传风险因素的价值。我们的研究结果还表明,白内障相关基因在晶状体组织和晶状体相关生物学途径中显著表达。
