特发性身材矮小患者视黄酸代谢酶 CYP26C1 中的功能错义突变和剪接变异。
Functional missense and splicing variants in the retinoic acid catabolizing enzyme CYP26C1 in idiopathic short stature.
机构信息
Department of Human Molecular Genetics, Heidelberg University, 69120, Heidelberg, Germany.
Department of Internal Medicine III - Cardiology, Heidelberg University, 69120, Heidelberg, Germany.
出版信息
Eur J Hum Genet. 2018 Aug;26(8):1113-1120. doi: 10.1038/s41431-018-0148-9. Epub 2018 Apr 30.
Abstract
Height is a complex quantitative trait with a high heritability. Short stature is diagnosed when height is significantly below the average of the general population for that person's age and sex. We have recently found that the retinoic acid degrading enzyme CYP26C1 modifies SHOX deficiency phenotypes toward more severe clinical manifestations. Here, we asked whether damaging variants in CYP26C1 alone could lead to short stature. We performed exome and Sanger sequencing to analyze 856 individuals with short stature where SHOX deficiency was previously excluded. Three different damaging missense variants and one splicing variant were identified in six independent individuals; the functional significance of the identified variants was tested in vitro or in vivo using zebrafish as a model. The genetic and functional data reported here indicate that CYP26C1 represents a novel gene underlying growth disorders and that damaging variants in the absence of SHOX variants can lead to short stature.
摘要
身高是一种复杂的数量性状,具有很高的遗传性。当身高明显低于同年龄、同性别一般人群的平均值时,就会被诊断为身材矮小。我们最近发现,视黄酸降解酶 CYP26C1 可使 SHOX 缺乏表型向更严重的临床表现转变。在这里,我们想知道单独的 CYP26C1 中的有害变异是否会导致身材矮小。我们对 856 名经 SHOX 缺乏排除的身材矮小患者进行了外显子和 Sanger 测序分析。在 6 个独立个体中发现了 3 种不同的有害错义变异和 1 种剪接变异;使用斑马鱼作为模型,在体外或体内测试了所鉴定变异的功能意义。这里报道的遗传和功能数据表明,CYP26C1 是一种新的生长障碍基因,并且在没有 SHOX 变异的情况下,有害变异可导致身材矮小。
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