远距离SOX10调控元件的损伤是孤立性先天性巨结肠病的基础。

An impairment of long distance SOX10 regulatory elements underlies isolated Hirschsprung disease.

作者信息

Lecerf Laure, Kavo Anthula, Ruiz-Ferrer Macarena, Baral Viviane, Watanabe Yuli, Chaoui Asma, Pingault Veronique, Borrego Salud, Bondurand Nadege

机构信息

INSERM, U955, Equipe11, Créteil, France; Université Paris Est, Faculté de Médecine, Créteil, France.

出版信息

Hum Mutat. 2014 Mar;35(3):303-7. doi: 10.1002/humu.22499. Epub 2014 Jan 8.

DOI:10.1002/humu.22499

PMID:24357527

Abstract

A deletion encompassing several SOX10 enhancers was recently identified in a patient presenting with Waardenburg syndrome type 4 (WS4), which is defined as a combination of Hirschsprung disease (HSCR, intestinal aganglionosis) and WS (deafness and pigmentation defects). The expression patterns of some of the known SOX10 enhancers in animal models led to the speculation that endophenotypes of WS4 may be linked to mutations within some of these sequences. The present study investigated deletions and point mutations within four SOX10 enhancers in 144 unexplained isolated HSCR cases. One deletion and two point mutations affecting binding sites for known neural crest transcription factors were identified. In vitro functional analysis revealed that the first point mutation disrupts autoregulation by SOX10, whereas the second affects AP2a and SOX10 synergistic activity. The present findings suggest that the mutations within SOX10 enhancers contribute to isolated HSCR.

摘要

最近在一名患有4型瓦登伯革氏综合征（WS4）的患者中发现了一个包含多个SOX10增强子的缺失，WS4被定义为先天性巨结肠（HSCR，肠道神经节缺失）和WS（耳聋和色素沉着缺陷）的组合。动物模型中一些已知SOX10增强子的表达模式引发了这样的推测，即WS4的内表型可能与这些序列中的某些突变有关。本研究调查了144例不明原因的孤立性HSCR病例中四个SOX10增强子的缺失和点突变。鉴定出一个缺失和两个影响已知神经嵴转录因子结合位点的点突变。体外功能分析表明，第一个点突变破坏了SOX10的自动调节，而第二个点突变影响AP2a和SOX10的协同活性。本研究结果表明，SOX10增强子内的突变导致了孤立性HSCR。

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远距离SOX10调控元件的损伤是孤立性先天性巨结肠病的基础。

An impairment of long distance SOX10 regulatory elements underlies isolated Hirschsprung disease.

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