Unraveling the genetic architecture of congenital vertebral malformation with reference to the developing spine

Zhao, Sen; Zhao, Hengqiang; Zhao, Lina; Cheng, Xi; Zheng, Zhifa; Wu, Mengfan; Wen, Wen; Wang, Shengru; Zhou, Zixiang; Xie, Haibo; Ruan, Dengfeng; Li, Qing; Liu, Xinquan; Ou, Chengzhu; Li, Guozhuang; Zhao, Zhengye; Chen, Guilin; Niu, Yuchen; Yin, Xiangjie; Hu, Yuhong; Zhang, Xiaochen; ,; Liu, Sen; Yan, Zihui; Li, Xiaoxin; Liu, Bowen; Huang, Yingzhao; Gao, Guangxi; Liu, Qing; Yang, Jianle; Yang, Xinyu; Maheshati, Aoran; Cai, Jihao; Zhu, Yuanpeng; Wang, Jie; Yang, Yang; Li, Ziquan; Lin, Guanfeng; Ye, Xiaohan; Liu, Pengfei; Qiu, Guixing; Liu, Wanlu; Zhao, Chengtian; Wu, Zhihong; Zhang, Jianguo; Wu, Nan

doi:10.1038/s41467-024-45442-5

Nat Commun

2024

DOI: 10.1038/s41467-024-45442-5

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Unraveling the genetic architecture of congenital vertebral malformation with reference to the developing spine

Sen Zhao,

Hengqiang Zhao,

Lina Zhao

et al.

Abstract: Congenital vertebral malformation, affecting 0.13–0.50 per 1000 live births, has an immense locus heterogeneity and complex genetic architecture. In this study, we analyze exome/genome sequencing data from 873 probands with congenital vertebral malformation and 3794 control individuals. Clinical interpretation identifies Mendelian etiologies in 12.0% of the probands and reveals a muscle-related disease mechanism. Gene-based burden test of ultra-rare variants identifies risk genes with large effect sizes (ITPR2… Show more

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2024

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Cited by 2 publications

References 36 publications

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Core planar cell polarity genes VANGL1 and VANGL2 in predisposition to congenital vertebral malformations

Feng,

Ye,

Zhang

et al. 2024

Proc. Natl. Acad. Sci. U.S.A.

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Congenital scoliosis (CS), affecting approximately 0.5 to 1 in 1,000 live births, is commonly caused by congenital vertebral malformations (CVMs) arising from aberrant somitogenesis or somite differentiation. While Wnt/ß-catenin signaling has been implicated in somite development, the function of Wnt/planar cell polarity (Wnt/PCP) signaling in this process remains unclear. Here, we investigated the role of Vangl1 and Vangl2 in vertebral development and found that their deletion causes vertebral anomalies resembling human CVMs. Analysis of exome sequencing data from multiethnic CS patients revealed a number of rare and deleterious variants in VANGL1 and VANGL2 , many of which exhibited loss-of-function and dominant-negative effects. Zebrafish models confirmed the pathogenicity of these variants. Furthermore, we found that Vangl1 knock-in (p.R258H) mice exhibited vertebral malformations in a Vangl gene dose- and environment-dependent manner. Our findings highlight critical roles for PCP signaling in vertebral development and predisposition to CVMs in CS patients, providing insights into the molecular mechanisms underlying this disorder.

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Core planar cell polarity genes VANGL1 and VANGL2 in predisposition to congenital vertebral malformations

Feng,

Ye,

Zhang

et al. 2024

Proc. Natl. Acad. Sci. U.S.A.

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show abstract

Planar cell polarity zebrafish models of congenital scoliosis reveal underlying defects in notochord morphogenesis

Wang,

Zhao,

Shi

et al. 2024

Development

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Congenital scoliosis (CS) is a type of vertebral malformation whose etiology remains elusive. The notochord is pivotal for vertebrae development but its role in CS is still understudied. Zebrafish knockout of ptk7a, a planar cell polarity (PCP) gene that is essential for convergence and extension (C&E) of the notochord, developed congenital scoliosis-like vertebral malformations (CVM). Maternal zygotic ptk7a mutants displayed severe C&E defects of the notochord. Excessive apoptosis occurred in the malformed notochord, causing a significantly reduced number of vacuolated cells, and compromising the mechanical properties of the notochord. The latter manifested as a less stiff extracellular matrix along with a significant reduction in the number of the caveolae and severely loosened intercellular junctions in the vacuolated region. These defects led to focal kinks, abnormal mineralization, and CVM exclusively at the anterior spine. Loss of function of another PCP gene, vangl2, also revealed excessive apoptosis in the notochord associated with CVM. This study suggests a new model for CS pathogenesis that is associated with defects in notochord C&E and highlights an essential role of PCP signaling in vertebrae development.

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Unraveling the genetic architecture of congenital vertebral malformation with reference to the developing spine

Cited by 2 publications

References 36 publications

Core planar cell polarity genes VANGL1 and VANGL2 in predisposition to congenital vertebral malformations

Core planar cell polarity genes VANGL1 and VANGL2 in predisposition to congenital vertebral malformations

Planar cell polarity zebrafish models of congenital scoliosis reveal underlying defects in notochord morphogenesis

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