Ocular Genomics Institute, Department of Ophthalmology, Massachusetts Eye and Ear, Harvard Medical School, Boston, Massachusetts 02114, USA.
Center for Mendelian Genetics, Broad Institute of MIT and Harvard, Cambridge, Massachusetts 02142, USA.
Cold Spring Harb Mol Case Stud. 2020 Feb 3;6(1). doi: 10.1101/mcs.a004754. Print 2020 Feb.
Retinol dehydrogenase 12, RDH12, plays a pivotal role in the visual cycle to ensure the maintenance of normal vision. Alterations in activity of this protein result in photoreceptor death and decreased vision beginning at an early age and progressing to substantial vision loss later in life. Here we describe 11 patients with retinal degeneration that underwent next-generation sequencing (NGS) with a targeted panel of all currently known inherited retinal degeneration (IRD) genes and whole-exome sequencing to identify the genetic causality of their retinal disease. These patients display a range of phenotypic severity prompting clinical diagnoses of macular dystrophy, cone-rod dystrophy, retinitis pigmentosa, and early-onset severe retinal dystrophy all attributed to biallelic recessive mutations in We report 15 causal alleles and expand the repertoire of known mutations with four novel variants: c.215A > G (p.Asp72Gly); c.362T > C (p.Ile121Thr); c.440A > C (p.Asn147Thr); and c.697G > A (p.Val233Ille). The broad phenotypic spectrum observed with biallelic mutations has been observed in other genetic forms of IRDs, but the diversity is particularly notable here given the prior association of primarily with severe early-onset disease. This breadth emphasizes the importance of broad genetic testing for inherited retinal disorders and extends the pool of individuals who may benefit from imminent gene-targeted therapies.
视黄醇脱氢酶 12(RDH12)在视觉循环中起着至关重要的作用,可确保维持正常视力。该蛋白活性的改变会导致感光细胞死亡,视力从早期开始下降,并在以后的生活中逐渐发展为严重的视力丧失。在此,我们描述了 11 名接受下一代测序(NGS)的视网膜变性患者,该检测使用了针对所有当前已知遗传性视网膜变性(IRD)基因的靶向panel 以及外显子组测序,以鉴定其视网膜疾病的遗传因果关系。这些患者表现出一系列不同严重程度的表型,促使临床诊断为黄斑营养不良、视锥-视杆营养不良、色素性视网膜炎和早发性严重视网膜营养不良,所有这些均归因于双等位基因隐性突变所致。我们报告了 15 个致病等位基因,并扩展了已知 突变的范围,包括四个新的变异:c.215A > G(p.Asp72Gly);c.362T > C(p.Ile121Thr);c.440A > C(p.Asn147Thr);和 c.697G > A(p.Val233Ille)。双等位基因 突变导致的广泛表型谱在其他遗传形式的 IRD 中也有观察到,但鉴于 先前主要与早发性严重疾病相关,因此这里的多样性尤其显著。这种多样性强调了对遗传性视网膜疾病进行广泛遗传检测的重要性,并扩大了可能受益于即将到来的基因靶向治疗的个体范围。
