A missense GDF5 variant causes brachydactyly type A1 and multiple-synostoses syndrome 2

IF 3.4 3区医学 Q1 ORTHOPEDICS

JOR Spine Pub Date : 2023-11-28 DOI:10.1002/jsp2.1302

Juyi Li, Xiaofang Liang, Xiufang Wang, Pei Yang, Xiaofei Jian, Lei Fu, Aiping Deng, Chao Liu, Jianxin Liu

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Abstract

Objective

This study aimed to identify the molecular defects and clinical manifestations in a Chinese family with brachydactyly (BD) type A1 (BDA1) and multiple-synostoses syndrome 2 (SYNS2).

Methods

A Chinese family with BDA1 and SYNS2 was enrolled in this study. Whole-exome sequencing was used to analyze the gene variants in the proband. The sequences of the candidate pathogenic variant in GDF5 was validated via Sanger sequencing. I-TASSER and PyMOL were used to analyze the functional domains of the corresponding mutant proteins.

Results

The family was found to have an autosomal-dominantly inherited combination of BDA1 and SYNS2 caused by the S475N variant in the GDF5 gene. The variant was located within the functional region, and the mutated residue was found to be highly conserved among species. Via bioinformatic analyses, we predicted this variant to be deleterious, which perturb the protein function. The substitution of the negatively charged amino acid S475 with the neutral N475 was predicted to disrupt the formation of salt bridges with Y487 and impair the structure, stability, and function of the protein, consequently, the abnormalities in cartilage and bone development ensue.

Conclusions

A single genetic variant (S475N) which disrupt the formation of salt bridges with Y487, in the interface of the antagonist- and receptor-binding sites of GDF5 concurrently causes two pathological mechanisms. This is the first report of this variant, identified in a Chinese family with BDA1 and SYNS2.

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GDF5错义变体导致A1型肱畸形和多发性对称综合征2（Brachydactyly type A1 and multiple-synostoses syndrome 2

本研究旨在确定一个中国A1型腕足（BD）（BDA1）和多发性腕足综合征2（SYNS2）家族的分子缺陷和临床表现。全外显子组测序分析了该患者的基因变异。通过桑格测序验证了 GDF5 候选致病变体的序列。研究发现，该家族的BDA1和SYNS2组合为常染色体显性遗传，由GDF5基因中的S475N变异体引起。该变异位于功能区，变异残基在物种间高度保守。通过生物信息学分析，我们预测该变异是有害的，会扰乱蛋白质的功能。据预测，带负电荷的氨基酸 S475 被中性的 N475 取代后，会破坏与 Y487 形成的盐桥，损害蛋白质的结构、稳定性和功能，从而导致软骨和骨骼发育异常。在 GDF5 的拮抗剂位点和受体结合位点的界面上，一个单一的遗传变异（S475N）会破坏与 Y487 形成的盐桥，同时导致两种病理机制。这是首次报道在一个患有 BDA1 和 SYNS2 的中国家族中发现这种变异。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

JOR Spine ORTHOPEDICS-

CiteScore

6.40

自引率

18.90%

发文量

审稿时长

10 weeks