Loss of Extreme Long-Range Enhancers in Human Neural Crest Drives a Craniofacial Disorder

Long Hannah K.; Osterwalder Marco; Welsh Ian C.; Hansen Karissa; Davies James O. J.; Liu Yiran E.; Koska Mervenaz; Adams Alexander T.; Aho Robert; Arora Neha; Ikeda Kazuya; Williams Ruth M.; Sauka-Spengler Tatjana; Porteus Matthew H.; Mohun Tim; Dickel Diane E.; Swigut Tomek; Hughes Jim R.; Higgs Douglas R.; Visel Axel; Selleri Licia; Wysocka Joanna

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Loss of Extreme Long-Range Enhancers in Human Neural Crest Drives a Craniofacial Disorder

机译：人类神经嵴中极端远程增强剂的丧失推动了颅面疾病

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Non-coding mutations at the far end of a large gene desert surrounding the SOX9 gene result in a human craniofacial disorder called Pierre Robin sequence (PRS). Leveraging a human stem cell differentiation model, we identify two clusters of enhancers within the PRS-associated region that regulate SOX9 expression during a restricted window of facial progenitor development at distances up to 1.45 Mb. Enhancers within the 1.45 Mb cluster exhibit highly synergistic activity that is dependent on the Coordinator motif. Using mouse models, we demonstrate that PRS phenotypic specificity arises from the convergence of two mechanisms: confinement of Sox9 dosage perturbation to developing facial structures through context-specific enhancer activity and heightened sensitivity of the lower jaw to Sox9 expression reduction. Overall, we characterize the longest- range human enhancers involved in congenital malformations, directly demonstrate that PRS is an enhanceropathy, and illustrate how small changes in gene expression can lead to morphological variation.

机译：SOX9基因周围的一个大基因沙漠远端的非编码突变导致了一种名为Pierre-Robin序列（PRS）的人类颅面疾病。利用人类干细胞分化模型，我们确定了PRS相关区域内的两个增强子簇，它们在面部祖细胞发育的有限窗口内调节SOX9的表达，距离为1.45MB。1.45MB簇内的增强子表现出高度的协同活性，这取决于协调基序。利用小鼠模型，我们证明PRS表型特异性来自两种机制的融合：通过上下文特异性增强子活性限制Sox9剂量扰动发展面部结构，以及提高下颚对Sox9表达减少的敏感性。总的来说，我们描述了与先天性畸形有关的最长范围的人类增强子，直接证明PRS是一种增强子病，并说明了基因表达的微小变化是如何导致形态变异的。

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《Cell stem cell》 |2020年第5期|共33页
作者
Long Hannah K.; Osterwalder Marco; Welsh Ian C.; Hansen Karissa; Davies James O. J.; Liu Yiran E.; Koska Mervenaz; Adams Alexander T.; Aho Robert; Arora Neha; Ikeda Kazuya; Williams Ruth M.; Sauka-Spengler Tatjana; Porteus Matthew H.; Mohun Tim; Dickel Diane E.; Swigut Tomek; Hughes Jim R.; Higgs Douglas R.; Visel Axel; Selleri Licia; Wysocka Joanna;
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作者单位

Stanford Univ Sch Med Dept Chem &

Syst Biol Stanford CA 94305 USA;

Lawrence Berkeley Natl Lab Environm Genom &

Syst Biol Div Berkeley CA 94720 USA;

Univ Calif San Francisco Eli &

Edythe Broad Ctr Regenerat Med &

Stem Cell Inst Human Genet Dept;

Univ Calif San Francisco Eli &

Edythe Broad Ctr Regenerat Med &

Stem Cell Inst Human Genet Dept;

Univ Oxford MRC Weatherall Inst Mol Med Radcliffe Dept Med MRC Mol Haematol Unit Oxford England;

Stanford Univ Canc Biol Program Sch Med Stanford CA 94305 USA;

Stanford Univ Sch Med Dept Chem &

Syst Biol Stanford CA 94305 USA;

Stanford Univ Sch Med Dept Chem &

Syst Biol Stanford CA 94305 USA;

Univ Calif San Francisco Eli &

Edythe Broad Ctr Regenerat Med &

Stem Cell Inst Human Genet Dept;

Stanford Univ Sch Med Dept Chem &

Syst Biol Stanford CA 94305 USA;

Stanford Univ Dept Pediat Stanford CA 94305 USA;

Univ Oxford MRC Weatherall Inst Mol Med Radcliffe Dept Med Oxford England;

Univ Oxford MRC Weatherall Inst Mol Med Radcliffe Dept Med Oxford England;

Stanford Univ Dept Pediat Stanford CA 94305 USA;

Francis Crick Inst Mill Hill Lab Ridgeway Mill Hill London NW7 1AA England;

Lawrence Berkeley Natl Lab Environm Genom &

Syst Biol Div Berkeley CA 94720 USA;

Stanford Univ Sch Med Dept Chem &

Syst Biol Stanford CA 94305 USA;

Univ Oxford MRC Weatherall Inst Mol Med Radcliffe Dept Med MRC Mol Haematol Unit Oxford England;

Univ Oxford MRC Weatherall Inst Mol Med Radcliffe Dept Med MRC Mol Haematol Unit Oxford England;

Lawrence Berkeley Natl Lab Environm Genom &

Syst Biol Div Berkeley CA 94720 USA;

Univ Calif San Francisco Eli &

Edythe Broad Ctr Regenerat Med &

Stem Cell Inst Human Genet Dept;

Stanford Univ Sch Med Dept Chem &

Syst Biol Stanford CA 94305 USA;

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正文语种 eng
中图分类细胞生物学;
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Loss of Extreme Long-Range Enhancers in Human Neural Crest Drives a Craniofacial Disorder

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