Department of Pediatrics, Children's Research Institute, Medical College of Wisconsin and Children's Wisconsin, Milwaukee, Wisconsin, USA.
Department of Ophthalmology and Visual Sciences, Medical College of Wisconsin, Milwaukee, Wisconsin, USA.
Clin Genet. 2020 Nov;98(5):486-492. doi: 10.1111/cge.13824. Epub 2020 Aug 17.
Ocular coloboma is caused by failure of optic fissure closure during development and recognized as part of the microphthalmia, anophthalmia, and coloboma (MAC) spectrum. While many genes are known to cause colobomatous microphthalmia, relatively few have been reported in coloboma with normal eye size. Genetic analysis including trio exome sequencing and Sanger sequencing was undertaken in a family with two siblings affected with bilateral coloboma of the iris, retina, and choroid. Pathogenic variants in MAC genes were excluded. Trio analysis identified compound heterozygous donor splice site variants in CDON, a cell-surface receptor known to function in the Sonic Hedgehog pathway, c.928 + 1G > A and c.2650 + 1G > T, in both affected individuals. Heterozygous missense and truncating CDON variants are associated with dominant holoprosencephaly (HPE) with incomplete penetrance and Cdon-/- mice display variable HPE and coloboma. A homozygous nonsense allele of uncertain significance was recently identified in a consanguineous patient with coloboma and a second molecular diagnosis. We report the first compound heterozygous variants in CDON as a cause of isolated coloboma. CDON is the first HPE gene identified to cause recessive coloboma. Given the phenotypic overlap, further examination of HPE genes in coloboma is indicated.
眼部虹膜视网膜脉络膜缺损是由于视裂在发育过程中未能闭合引起的,被认为是小眼、无眼和虹膜视网膜脉络膜缺损(MAC)综合征的一部分。虽然已知许多基因会导致虹膜视网膜脉络膜缺损性小眼,但在眼大小正常的虹膜视网膜脉络膜缺损中报道的相对较少。对一个有两个双侧虹膜、视网膜和脉络膜缺损的兄弟姐妹的家庭进行了包括三体外显子测序和 Sanger 测序的基因分析。MAC 基因的致病性变异被排除在外。三体外显子分析在两个受影响的个体中均发现了细胞表面受体 CDON 的复合杂合供体位点变异,c.928 + 1G > A 和 c.2650 + 1G > T,该受体已知在 Sonic Hedgehog 通路中发挥作用。杂合错义和截断 CDON 变异与不完全外显率的显性全前脑畸形(HPE)相关,而 Cdon-/- 小鼠表现出可变的 HPE 和虹膜视网膜脉络膜缺损。最近在一名有虹膜视网膜脉络膜缺损和第二个分子诊断的近亲结婚患者中发现了一个意义不明的纯合无义等位基因。我们报告了 CDON 的第一个复合杂合变异作为孤立性虹膜视网膜脉络膜缺损的原因。CDON 是第一个被确定导致隐性虹膜视网膜脉络膜缺损的 HPE 基因。鉴于表型重叠,需要进一步检查 HPE 基因在虹膜视网膜脉络膜缺损中的作用。
