Zhou Tiger, Souzeau Emmanuelle, Siggs Owen M, Landers John, Mills Richard, Goldberg Ivan, Healey Paul R, Graham Stuart, Hewitt Alex W, Mackey David A, Galanopoulos Anna, Casson Robert J, Ruddle Jonathan B, Ellis Jonathan, Leo Paul, Brown Matthew A, MacGregor Stuart, Sharma Shiwani, Burdon Kathryn P, Craig Jamie E
Flinders University, Department of Ophthalmology, Bedford Park, South Australia, Australia.
University of Sydney Discipline of Ophthalmology, Sydney, Australia 3Glaucoma Unit, Sydney Eye Hospital, Sydney, Australia.
Invest Ophthalmol Vis Sci. 2017 Mar 1;58(3):1537-1544. doi: 10.1167/iovs.16-21049.
Primary open-angle glaucoma (POAG) and primary congenital glaucoma (PCG) with Mendelian inheritance are caused by mutations in at least nine genes. Utilizing whole-exome sequencing, we examined the disease burden accounted for by these known Mendelian glaucoma genes in a cohort of individuals with advanced early-onset POAG.
The cases exhibited advanced POAG with young age of diagnosis. Cases and examined local controls were subjected to whole-exome sequencing. Nine hundred ninety-three previously sequenced exomes of Australian controls were called jointly with our dataset. Qualifying variants were selected based on predicted pathogenicity and rarity in public domain gene variant databases. Case-control mutational burdens were calculated for glaucoma-linked genes.
Two hundred eighteen unrelated POAG participants and 103 nonglaucomatous controls were included in addition to 993 unexamined controls. Fifty-eight participants (26.6%) harbored rare potentially pathogenic variants in known glaucoma genes. Enrichment of qualifying variants toward glaucoma was present in all genes except WDR36, in which controls harbored more variants, and TBK1, in which no qualifying variants were detected in cases or controls. After multiple testing correction, only MYOC showed statistically significant enrichment of qualifying variants (odds ratio [OR] = 16.62, P = 6.31×10-16).
Rare, potentially disease-causing variants in Mendelian POAG genes that showed enrichment in our dataset were found in 22.9% of advanced early-onset POAG cases. MYOC variants represented the largest monogenic cause in POAG. The association between WDR36 and POAG was not supported, and the majority of POAG cases did not harbor a potentially disease-causing variant in the remaining Mendelian genes.
原发性开角型青光眼(POAG)和具有孟德尔遗传的原发性先天性青光眼(PCG)是由至少9个基因的突变引起的。利用全外显子组测序,我们在一组早发性POAG晚期患者中检测了这些已知孟德尔青光眼基因所导致的疾病负担。
这些病例表现为早发性POAG晚期且诊断时年龄较小。对病例和经过检测的本地对照进行全外显子组测序。将993个先前测序的澳大利亚对照外显子组与我们的数据集联合分析。根据公共领域基因变异数据库中的预测致病性和稀有性选择合格变异。计算青光眼相关基因的病例对照突变负担。
除993个未检测的对照外,纳入了218名无关的POAG参与者和103名非青光眼对照。58名参与者(26.6%)在已知青光眼基因中携带罕见的潜在致病变异。除WDR36(对照携带更多变异)和TBK1(病例和对照中均未检测到合格变异)外,所有基因中合格变异向青光眼方向均有富集。经过多重检验校正后,只有MYOC显示合格变异有统计学意义的富集(优势比[OR]=16.62,P=6.31×10-16)。
在22.9%的早发性POAG晚期病例中发现了孟德尔POAG基因中的罕见潜在致病变异,这些变异在我们的数据集中有富集。MYOC变异是POAG中最大的单基因病因。不支持WDR36与POAG之间的关联,并且大多数POAG病例在其余孟德尔基因中未携带潜在致病变异。
