综合征性小头畸形病例中的新型 CASK 突变。
Novel CASK mutations in cases with syndromic microcephaly.
机构信息
Laboratory for Cytogenetics and Genome Research, Center for Human Genetics, KU Leuven, Leuven, Belgium.
Center for Human Genetics, University Hospitals Leuven, Leuven, Belgium.
出版信息
Hum Mutat. 2018 Jul;39(7):993-1001. doi: 10.1002/humu.23536. Epub 2018 May 11.
Abstract
Mutations in CASK cause a wide spectrum of phenotypes in humans ranging from mild X-linked intellectual disability to a severe microcephaly (MC) and pontocerebellar hypoplasia syndrome. Nevertheless, predicting pathogenicity and phenotypic consequences of novel CASK mutations through the exclusive consideration of genetic information and population-based data remains a challenge. Using whole exome sequencing, we identified four novel CASK mutations in individuals with syndromic MC. To understand the functional consequences of the different point mutations on the development of MC and cerebellar defects, we established a transient loss-of-function zebrafish model, and demonstrate recapitulation of relevant neuroanatomical phenotypes. Furthermore, we utilized in vivo complementation studies to demonstrate that the three point mutations confer a loss-of-function effect. This work endorses zebrafish as a tractable model to rapidly assess the effect of novel CASK variants on brain development.
摘要
CASK 基因突变会导致人类出现广泛的表型,从轻度 X 连锁智力障碍到严重的小头畸形(MC)和桥脑小脑发育不良综合征。然而,仅通过遗传信息和基于人群的数据来预测新型 CASK 突变的致病性和表型后果仍然是一个挑战。通过全外显子组测序,我们在患有综合征性 MC 的个体中发现了四个新型 CASK 突变。为了了解不同点突变对 MC 和小脑缺陷发育的功能后果,我们建立了一个瞬时功能丧失的斑马鱼模型,并证明了相关神经解剖表型的重现。此外,我们利用体内互补研究证明了这三个点突变具有功能丧失效应。这项工作支持将斑马鱼作为一种可行的模型,用于快速评估新型 CASK 变体对大脑发育的影响。
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