Department of Pediatrics and Children's Research Institute, Medical College of Wisconsin and Children's Hospital of Wisconsin, Milwaukee, WI, USA; Department of Cell Biology, Neurobiology and Anatomy, Medical College of Wisconsin, Milwaukee, WI, USA.
Clin Genet. 2013 Nov;84(5):473-81. doi: 10.1111/cge.12202. Epub 2013 Jun 17.
Anophthalmia/microphthalmia (A/M) represent severe developmental ocular malformations. Currently, mutations in known genes explain less than 40% of A/M cases. We performed whole-genome copy number variation analysis in 60 patients affected with isolated or syndromic A/M. Pathogenic deletions of 3q26 (SOX2) were identified in four independent patients with syndromic microphthalmia. Other variants of interest included regions with a known role in human disease (likely pathogenic) as well as novel rearrangements (uncertain significance). A 2.2-Mb duplication of 3q29 in a patient with non-syndromic anophthalmia and an 877-kb duplication of 11p13 (PAX6) and a 1.4-Mb deletion of 17q11.2 (NF1) in two independent probands with syndromic microphthalmia and other ocular defects were identified; while ocular anomalies have been previously associated with 3q29 duplications, PAX6 duplications, and NF1 mutations in some cases, the ocular phenotypes observed here are more severe than previously reported. Three novel regions of possible interest included a 2q14.2 duplication which cosegregated with microphthalmia/microcornea and congenital cataracts in one family, and 2q21 and 15q26 duplications in two additional cases; each of these regions contains genes that are active during vertebrate ocular development. Overall, this study identified causative copy number mutations and regions with a possible role in ocular disease in 17% of A/M cases.
眼裂狭小/小眼(A/M)代表严重的眼部发育畸形。目前,已知基因的突变解释了不到 40%的 A/M 病例。我们对 60 名患有孤立性或综合征性 A/M 的患者进行了全基因组拷贝数变异分析。在 4 名患有综合征性小眼的独立患者中发现了 3q26(SOX2)的致病性缺失。其他具有已知人类疾病作用的区域(可能致病)以及新的重排(意义不明)也很有意义。一名非综合征性无眼患者的 3q29 存在 2.2Mb 重复,两名患有综合征性小眼和其他眼部缺陷的独立患者中存在 11p13(PAX6)的 877kb 重复和 17q11.2(NF1)的 1.4Mb 缺失;尽管眼部异常先前与 3q29 重复、PAX6 重复和 NF1 突变有关,但在此观察到的眼部表型比以前报道的更严重。三个可能有意义的新区域包括一个 2q14.2 重复,该重复与一个家族中的小眼球/小角膜和先天性白内障共分离,以及另外两个病例中的 2q21 和 15q26 重复;这些区域都包含在脊椎动物眼部发育过程中活跃的基因。总的来说,这项研究在 17%的 A/M 病例中确定了致病拷贝数突变和可能在眼部疾病中起作用的区域。
