Auricular malformations are driven by copy number variations in a hierarchical enhancer cluster and a dominant enhancer recapitulates human pathogenesis

Xiaopeng Xu; Qi Chen; Qingpei Huang; Timothy C. Cox; Hao Zhu; Jintian Hu; Xi Han; Ziqiu Meng; Bingqing Wang; Zhiying Liao; Wenxin Xu; Baichuan Xiao; Ruirui Lang; Jiqiang Liu; Jian Huang; Xiaokai Tang; Jinmo Wang; Qiang Li; Ting Liu; Qingguo Zhang; Stylianos E. Antonarakis; Jiao Zhang; Xiaoying Fan; Huisheng Liu; Yong Biao Zhang

doi:10.1038/s41467-025-59735-w

Auricular malformations are driven by copy number variations in a hierarchical enhancer cluster and a dominant enhancer recapitulates human pathogenesis

Xiaopeng Xu
, Qi Chen
, Qingpei Huang
, Timothy C. Cox
, Hao Zhu
, Jintian Hu
, Xi Han
, Ziqiu Meng
, Bingqing Wang
, Zhiying Liao
, Wenxin Xu
, Baichuan Xiao
, Ruirui Lang
, Jiqiang Liu
, Jian Huang
, Xiaokai Tang
, Jinmo Wang
, Qiang Li
, Ting Liu
, Qingguo Zhang

Stylianos E. Antonarakis, Jiao Zhang^*, Xiaoying Fan^*, Huisheng Liu^*, Yong Biao Zhang^*

^*Corresponding author for this work

School of Engineering Medicine

Guangzhou Laboratory
Beihang University
Bioland Laboratory (Guangzhou Regenerative Medicine and Health Guangdong Laboratory)
Chinese Academy of Medical Sciences
University of Missouri at Kansas City
University of Science and Technology of China
Xuzhou Medical University
Army Medical University
University of Geneva
Medigenome
iGE3 Institute of Genetics and Genomes in Geneva
Shandong collaborative innovation research institute of traditional Chinese medicine industry
Guangzhou Medical College
CAS - Guangzhou Institute of Biomedicine and Health

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

Enhancers, through the combinatorial action of transcription factors (TFs), dictate both the spatial specificity and the levels of gene expression, and their aberrations can result in diseases. While a HMX1 downstream enhancer is associated with ear malformations, the mechanisms underlying bilateral constricted ear (BCE) remain unclear. Here, we identify a copy number variation (CNV) containing three enhancers—collectively termed the positional identity hierarchical enhancer cluster (PI-HEC)—that drives BCE by coordinately regulating HMX1 expression. Each enhancer exhibits distinct activity-location-structure features, and the dominant enhancer with high mobility group (HMG)-box combined with Coordinator and homeodomain TF motifs modulating its activity and specificity, respectively. Mouse models demonstrate that neural crest-derived fibroblasts with aberrant Hmx1 expression in the basal pinna, along with ectopic distal pinna expression, disrupt outer ear development, affecting cartilage, muscle, and epidermis. Our findings elucidate mammalian ear morphogenesis and underscore the complexity of synergistic regulation among enhancers and between enhancers and transcription factors.

Original language	English
Article number	4598
Journal	Nature Communications
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-59735-w
State	Published - Dec 2025

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Xu, X., Chen, Q., Huang, Q., Cox, T. C., Zhu, H., Hu, J., Han, X., Meng, Z., Wang, B., Liao, Z., Xu, W., Xiao, B., Lang, R., Liu, J., Huang, J., Tang, X., Wang, J., Li, Q., Liu, T., ... Zhang, Y. B. (2025). Auricular malformations are driven by copy number variations in a hierarchical enhancer cluster and a dominant enhancer recapitulates human pathogenesis. Nature Communications, 16(1), Article 4598. https://doi.org/10.1038/s41467-025-59735-w

@article{bdabb9659c2e463c826e2d981c0f7b58,

title = "Auricular malformations are driven by copy number variations in a hierarchical enhancer cluster and a dominant enhancer recapitulates human pathogenesis",

abstract = "Enhancers, through the combinatorial action of transcription factors (TFs), dictate both the spatial specificity and the levels of gene expression, and their aberrations can result in diseases. While a HMX1 downstream enhancer is associated with ear malformations, the mechanisms underlying bilateral constricted ear (BCE) remain unclear. Here, we identify a copy number variation (CNV) containing three enhancers—collectively termed the positional identity hierarchical enhancer cluster (PI-HEC)—that drives BCE by coordinately regulating HMX1 expression. Each enhancer exhibits distinct activity-location-structure features, and the dominant enhancer with high mobility group (HMG)-box combined with Coordinator and homeodomain TF motifs modulating its activity and specificity, respectively. Mouse models demonstrate that neural crest-derived fibroblasts with aberrant Hmx1 expression in the basal pinna, along with ectopic distal pinna expression, disrupt outer ear development, affecting cartilage, muscle, and epidermis. Our findings elucidate mammalian ear morphogenesis and underscore the complexity of synergistic regulation among enhancers and between enhancers and transcription factors.",

author = "Xiaopeng Xu and Qi Chen and Qingpei Huang and Cox, \{Timothy C.\} and Hao Zhu and Jintian Hu and Xi Han and Ziqiu Meng and Bingqing Wang and Zhiying Liao and Wenxin Xu and Baichuan Xiao and Ruirui Lang and Jiqiang Liu and Jian Huang and Xiaokai Tang and Jinmo Wang and Qiang Li and Ting Liu and Qingguo Zhang and Antonarakis, \{Stylianos E.\} and Jiao Zhang and Xiaoying Fan and Huisheng Liu and Zhang, \{Yong Biao\}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = dec,

doi = "10.1038/s41467-025-59735-w",

language = "英语",

volume = "16",

journal = "Nature Communications",

issn = "2041-1723",

publisher = "Nature Research",

number = "1",

}

Xu, X, Chen, Q, Huang, Q, Cox, TC, Zhu, H, Hu, J, Han, X, Meng, Z, Wang, B, Liao, Z, Xu, W, Xiao, B, Lang, R, Liu, J, Huang, J, Tang, X, Wang, J, Li, Q, Liu, T, Zhang, Q, Antonarakis, SE, Zhang, J, Fan, X, Liu, H & Zhang, YB 2025, 'Auricular malformations are driven by copy number variations in a hierarchical enhancer cluster and a dominant enhancer recapitulates human pathogenesis', Nature Communications, vol. 16, no. 1, 4598. https://doi.org/10.1038/s41467-025-59735-w

TY - JOUR

T1 - Auricular malformations are driven by copy number variations in a hierarchical enhancer cluster and a dominant enhancer recapitulates human pathogenesis

AU - Xu, Xiaopeng

AU - Chen, Qi

AU - Huang, Qingpei

AU - Cox, Timothy C.

AU - Zhu, Hao

AU - Hu, Jintian

AU - Han, Xi

AU - Meng, Ziqiu

AU - Wang, Bingqing

AU - Liao, Zhiying

AU - Xu, Wenxin

AU - Xiao, Baichuan

AU - Lang, Ruirui

AU - Liu, Jiqiang

AU - Huang, Jian

AU - Tang, Xiaokai

AU - Wang, Jinmo

AU - Li, Qiang

AU - Liu, Ting

AU - Zhang, Qingguo

AU - Antonarakis, Stylianos E.

AU - Zhang, Jiao

AU - Fan, Xiaoying

AU - Liu, Huisheng

AU - Zhang, Yong Biao

PY - 2025/12

Y1 - 2025/12

N2 - Enhancers, through the combinatorial action of transcription factors (TFs), dictate both the spatial specificity and the levels of gene expression, and their aberrations can result in diseases. While a HMX1 downstream enhancer is associated with ear malformations, the mechanisms underlying bilateral constricted ear (BCE) remain unclear. Here, we identify a copy number variation (CNV) containing three enhancers—collectively termed the positional identity hierarchical enhancer cluster (PI-HEC)—that drives BCE by coordinately regulating HMX1 expression. Each enhancer exhibits distinct activity-location-structure features, and the dominant enhancer with high mobility group (HMG)-box combined with Coordinator and homeodomain TF motifs modulating its activity and specificity, respectively. Mouse models demonstrate that neural crest-derived fibroblasts with aberrant Hmx1 expression in the basal pinna, along with ectopic distal pinna expression, disrupt outer ear development, affecting cartilage, muscle, and epidermis. Our findings elucidate mammalian ear morphogenesis and underscore the complexity of synergistic regulation among enhancers and between enhancers and transcription factors.

AB - Enhancers, through the combinatorial action of transcription factors (TFs), dictate both the spatial specificity and the levels of gene expression, and their aberrations can result in diseases. While a HMX1 downstream enhancer is associated with ear malformations, the mechanisms underlying bilateral constricted ear (BCE) remain unclear. Here, we identify a copy number variation (CNV) containing three enhancers—collectively termed the positional identity hierarchical enhancer cluster (PI-HEC)—that drives BCE by coordinately regulating HMX1 expression. Each enhancer exhibits distinct activity-location-structure features, and the dominant enhancer with high mobility group (HMG)-box combined with Coordinator and homeodomain TF motifs modulating its activity and specificity, respectively. Mouse models demonstrate that neural crest-derived fibroblasts with aberrant Hmx1 expression in the basal pinna, along with ectopic distal pinna expression, disrupt outer ear development, affecting cartilage, muscle, and epidermis. Our findings elucidate mammalian ear morphogenesis and underscore the complexity of synergistic regulation among enhancers and between enhancers and transcription factors.

UR - https://www.scopus.com/pages/publications/105005466513

U2 - 10.1038/s41467-025-59735-w

DO - 10.1038/s41467-025-59735-w

M3 - 文章

C2 - 40382324

AN - SCOPUS:105005466513

SN - 2041-1723

VL - 16

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 4598

ER -

Auricular malformations are driven by copy number variations in a hierarchical enhancer cluster and a dominant enhancer recapitulates human pathogenesis

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