Mutational burden and potential oligogenic model of TBX6‐mediated genes in congenital scoliosis

BACKGROUND: Congenital scoliosis (CS) is a spinal deformity due to vertebral malformations. Although insufficiency of TBX6 dosage contributes to a substantial proportion of CS, the molecular etiology for the majority of CS remains largely unknown. TBX6‐mediated genes involved in the process of somit...

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Autores principales: Yang, Yang, Zhao, Sen, Zhang, Yuanqiang, Wang, Shengru, Shao, Jiashen, Liu, Bowen, Li, Yaqi, Yan, Zihui, Niu, Yuchen, Li, Xiaoxin, Wang, Lianlei, Ye, Yongyu, Weng, Xisheng, Wu, Zhihong, Zhang, Jianguo, Wu, Nan
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2020
Materias:
Original Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7549550/
https://www.ncbi.nlm.nih.gov/pubmed/32815649
http://dx.doi.org/10.1002/mgg3.1453
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author Yang, Yang
Zhao, Sen
Zhang, Yuanqiang
Wang, Shengru
Shao, Jiashen
Liu, Bowen
Li, Yaqi
Yan, Zihui
Niu, Yuchen
Li, Xiaoxin
Wang, Lianlei
Ye, Yongyu
Weng, Xisheng
Wu, Zhihong
Zhang, Jianguo
Wu, Nan
author_facet Yang, Yang
Zhao, Sen
Zhang, Yuanqiang
Wang, Shengru
Shao, Jiashen
Liu, Bowen
Li, Yaqi
Yan, Zihui
Niu, Yuchen
Li, Xiaoxin
Wang, Lianlei
Ye, Yongyu
Weng, Xisheng
Wu, Zhihong
Zhang, Jianguo
Wu, Nan
author_sort Yang, Yang
collection PubMed
description BACKGROUND: Congenital scoliosis (CS) is a spinal deformity due to vertebral malformations. Although insufficiency of TBX6 dosage contributes to a substantial proportion of CS, the molecular etiology for the majority of CS remains largely unknown. TBX6‐mediated genes involved in the process of somitogenesis represent promising candidates. METHODS: Individuals affected with CS and without a positive genetic finding were referred to this study. Proband‐only exome sequencing (ES) were performed on the recruited individuals, followed by analysis of TBX6‐mediated candidate genes, namely MEOX1, MEOX2, MESP2, MYOD1, MYF5, RIPPLY1, and RIPPLY2. RESULTS: A total of 584 patients with CS of unknown molecular etiology were recruited. After ES analysis, protein‐truncating variants in RIPPLY1 and MYF5 were identified from two individuals, respectively. In addition, we identified five deleterious missense variants (MYOD1, n = 4; RIPPLY2, n = 1) in TBX6‐mediated genes. We observed a significant mutational burden of MYOD1 in CS (p = 0.032) compared with the in‐house controls (n = 1854). Moreover, a potential oligogenic disease‐causing mode was proposed based on the observed mutational co‐existence of MYOD1/MEOX1 and MYOD1/RIPPLY1. CONCLUSION: Our study characterized the mutational spectrum of TBX6‐mediated genes, prioritized core candidate genes/variants, and provided insight into a potential oligogenic disease‐causing mode in CS.
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spelling pubmed-75495502020-10-16 Mutational burden and potential oligogenic model of TBX6‐mediated genes in congenital scoliosis Yang, Yang Zhao, Sen Zhang, Yuanqiang Wang, Shengru Shao, Jiashen Liu, Bowen Li, Yaqi Yan, Zihui Niu, Yuchen Li, Xiaoxin Wang, Lianlei Ye, Yongyu Weng, Xisheng Wu, Zhihong Zhang, Jianguo Wu, Nan Mol Genet Genomic Med Original Articles BACKGROUND: Congenital scoliosis (CS) is a spinal deformity due to vertebral malformations. Although insufficiency of TBX6 dosage contributes to a substantial proportion of CS, the molecular etiology for the majority of CS remains largely unknown. TBX6‐mediated genes involved in the process of somitogenesis represent promising candidates. METHODS: Individuals affected with CS and without a positive genetic finding were referred to this study. Proband‐only exome sequencing (ES) were performed on the recruited individuals, followed by analysis of TBX6‐mediated candidate genes, namely MEOX1, MEOX2, MESP2, MYOD1, MYF5, RIPPLY1, and RIPPLY2. RESULTS: A total of 584 patients with CS of unknown molecular etiology were recruited. After ES analysis, protein‐truncating variants in RIPPLY1 and MYF5 were identified from two individuals, respectively. In addition, we identified five deleterious missense variants (MYOD1, n = 4; RIPPLY2, n = 1) in TBX6‐mediated genes. We observed a significant mutational burden of MYOD1 in CS (p = 0.032) compared with the in‐house controls (n = 1854). Moreover, a potential oligogenic disease‐causing mode was proposed based on the observed mutational co‐existence of MYOD1/MEOX1 and MYOD1/RIPPLY1. CONCLUSION: Our study characterized the mutational spectrum of TBX6‐mediated genes, prioritized core candidate genes/variants, and provided insight into a potential oligogenic disease‐causing mode in CS. John Wiley and Sons Inc. 2020-08-20 /pmc/articles/PMC7549550/ /pubmed/32815649 http://dx.doi.org/10.1002/mgg3.1453 Text en © 2020 The Authors. Molecular Genetics & Genomic Medicine published by Wiley Periodicals LLC. This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
spellingShingle Original Articles
Yang, Yang
Zhao, Sen
Zhang, Yuanqiang
Wang, Shengru
Shao, Jiashen
Liu, Bowen
Li, Yaqi
Yan, Zihui
Niu, Yuchen
Li, Xiaoxin
Wang, Lianlei
Ye, Yongyu
Weng, Xisheng
Wu, Zhihong
Zhang, Jianguo
Wu, Nan
Mutational burden and potential oligogenic model of TBX6‐mediated genes in congenital scoliosis
title Mutational burden and potential oligogenic model of TBX6‐mediated genes in congenital scoliosis
title_full Mutational burden and potential oligogenic model of TBX6‐mediated genes in congenital scoliosis
title_fullStr Mutational burden and potential oligogenic model of TBX6‐mediated genes in congenital scoliosis
title_full_unstemmed Mutational burden and potential oligogenic model of TBX6‐mediated genes in congenital scoliosis
title_short Mutational burden and potential oligogenic model of TBX6‐mediated genes in congenital scoliosis
title_sort mutational burden and potential oligogenic model of tbx6‐mediated genes in congenital scoliosis
topic Original Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7549550/
https://www.ncbi.nlm.nih.gov/pubmed/32815649
http://dx.doi.org/10.1002/mgg3.1453
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