Department of Ophthalmology, FMHS, New Zealand National Eye Centre, University of Auckland, Auckland, New Zealand.
Eye Department, Greenlane Clinical Centre, Auckland District Health Board, Auckland, New Zealand.
Clin Exp Ophthalmol. 2017 Dec;45(9):901-910. doi: 10.1111/ceo.12983. Epub 2017 Jun 13.
This study identifies unique genetic variation observed in a cohort of Māori and Polynesian patients with rod-cone retinal dystrophies using a targeted next-generation sequencing retinal disease gene panel.
With over 250 retinal disease genes identified, genetic diagnosis is still only possible in 60-70% of individuals and even less within unique ethnic groups.
Prospective genetic testing in patients with rod-cone retinal dystrophies identified from the New Zealand Inherited Retinal Disease Database, PARTICIPANTS: Sixteen patients of Māori and Polynesian ancestry.
Next-generation sequencing of a targeted retinal gene panel. Sanger sequencing for a novel PDE6B mutation in subsequent Māori patients.
Genetic diagnosis, genotype-phenotype correlation.
Thirteen unique pathogenic variants were identified in 9 of 16 (56.25%) patients in 10 different genes. A definitive genetic diagnosis was made in 7/16 patients (43.7%). Six changes were novel and not in public databases of human variation. In four patients, a homozygous, novel pathogenic variant (c.2197G > C, p.(Ala 733Pro)) in PDE6B was identified and also present in a further five similarly affected Māori patients.
Over half of the Māori and Polynesian patients with inherited rod-cone diseases have no pathogenic variant(s) detected with a targeted retinal next-generation sequencing strategy, which is supportive of novel genetic mechanisms in this population. A novel PDE6B founder variant is likely to account for 16% of recessive inherited retinal dystrophy in Māori. Careful characterization of the clinical presentation permits identification of further Māori patients with a similar phenotype and simplifies the diagnostic algorithm.
本研究使用靶向下一代测序视网膜疾病基因panel 鉴定了一组毛利人和波利尼西亚患者的杆锥细胞视网膜营养不良中观察到的独特遗传变异。
随着 250 多个视网膜疾病基因的鉴定,遗传诊断在 60-70%的个体中仍然是可行的,在独特的族群中则更少。
从新西兰遗传性视网膜疾病数据库中鉴定出的杆锥细胞视网膜营养不良患者进行前瞻性遗传检测。
16 名毛利人和波利尼西亚血统的患者。
靶向视网膜基因panel 的下一代测序。随后对毛利患者中的新型 PDE6B 突变进行 Sanger 测序。
遗传诊断、基因型-表型相关性。
在 10 个不同基因的 16 名患者中的 9 名(56.25%)中发现了 13 个独特的致病性变异,在 16 名患者中的 7 名(43.7%)中做出了明确的遗传诊断。6 个变化是新颖的,不在人类变异的公共数据库中。在 4 名患者中,鉴定出 PDE6B 中的纯合、新型致病性变异(c.2197G > C,p.(Ala733Pro)),并且在另外 5 名具有相似表型的毛利患者中也存在该变异。
超过一半的毛利和波利尼西亚遗传性杆锥细胞疾病患者没有通过靶向视网膜下一代测序策略检测到致病性变异,这支持了该人群中的新型遗传机制。一种新型的 PDE6B 启动子变异可能导致 16%的毛利人隐性遗传性视网膜营养不良。对临床表现的仔细描述允许识别出具有相似表型的其他毛利患者,并简化了诊断算法。
