A novel mutation in the BTB domain impairs transcriptional repression function of KCTD1 leading to syndromic microtia

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-10-16 DOI:10.1016/j.gene.2024.149012

Xiaolu Meng , Xinyuan Chen , Bo Pan , Haiyue Jiang , Nuo Si

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Abstract

Microtia is a common birth defect affecting the external ears and encompasses a spectrum of congenital anomalies of the auricle. For some of the microtia-associated syndromes, the additional abnormalities are not easily observed or with variable expressivity. Identifying pathogenic mutations through genetic testing is of great help in recognizing these highly heterogeneous syndromes in clinical practice. We reported a novel de novo KCTD1 mutation in a Chinese patient with congenital microtia. It expands the mutational spectrum of KCTD1 and provide an additional scalp‐ear‐nipple patient with typical and atypical clinical presentations. The identified mutation in the BTB domain impairs the suppressive activity of the AP-2 transcription factor family and may impact on maintaining the finely tuned activity of WNT pathway, which directs stem cell development in ectoderm patterning and craniofacial development. Due to the variable expressive clinical phenotypes of syndromic microtia, genetic molecular testing could be of great help in the definite diagnosis.

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BTB 结构域的新型突变损害了 KCTD1 的转录抑制功能，导致综合征性小耳畸形。

小耳症是一种影响外耳的常见先天性缺陷，包括一系列先天性耳廓异常。对于某些与小耳症相关的综合征来说，额外的异常并不容易观察到，或者表现不一。在临床实践中，通过基因检测确定致病突变对识别这些高度异质性综合征有很大帮助。我们报告了一名中国先天性小耳畸形患者的一个新的 KCTD1 基因突变。它扩展了 KCTD1 的突变谱，并提供了一名具有典型和非典型临床表现的头皮-耳朵-乳头患者。BTB结构域的突变损害了AP-2转录因子家族的抑制活性，可能会影响WNT通路微调活性的维持，而WNT通路在外胚层模式化和颅面发育过程中指导干细胞的发育。由于综合征小耳畸形的临床表型多变，基因分子检测对明确诊断有很大帮助。

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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