BTB domain mutations perturbing KCTD15 oligomerisation cause a distinctive frontonasal dysplasia syndrome.

IF 3.5 2区 医学 Q2 GENETICS & HEREDITY Journal of Medical Genetics Pub Date : 2024-04-19 DOI:10.1136/jmg-2023-109531
Kerry A Miller, David A Cruz Walma, Daniel M Pinkas, Rebecca S Tooze, Joshua C Bufton, William Richardson, Charlotte E Manning, Alice E Hunt, Julien Cros, Verity Hartill, Michael J Parker, Simon J McGowan, Stephen R F Twigg, Rod Chalk, David Staunton, David Johnson, Andrew O M Wilkie, Alex N Bullock
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Abstract

Introduction: KCTD15 encodes an oligomeric BTB domain protein reported to inhibit neural crest formation through repression of Wnt/beta-catenin signalling, as well as transactivation by TFAP2. Heterozygous missense variants in the closely related paralogue KCTD1 cause scalp-ear-nipple syndrome.

Methods: Exome sequencing was performed on a two-generation family affected by a distinctive phenotype comprising a lipomatous frontonasal malformation, anosmia, cutis aplasia of the scalp and/or sparse hair, and congenital heart disease. Identification of a de novo missense substitution within KCTD15 led to targeted sequencing of DNA from a similarly affected sporadic patient, revealing a different missense mutation. Structural and biophysical analyses were performed to assess the effects of both amino acid substitutions on the KCTD15 protein.

Results: A heterozygous c.310G>C variant encoding p.(Asp104His) within the BTB domain of KCTD15 was identified in an affected father and daughter and segregated with the phenotype. In the sporadically affected patient, a de novo heterozygous c.263G>A variant encoding p.(Gly88Asp) was present in KCTD15. Both substitutions were found to perturb the pentameric assembly of the BTB domain. A crystal structure of the BTB domain variant p.(Gly88Asp) revealed a closed hexameric assembly, whereas biophysical analyses showed that the p.(Asp104His) substitution resulted in a monomeric BTB domain likely to be partially unfolded at physiological temperatures.

Conclusion: BTB domain substitutions in KCTD1 and KCTD15 cause clinically overlapping phenotypes involving craniofacial abnormalities and cutis aplasia. The structural analyses demonstrate that missense substitutions act through a dominant negative mechanism by disrupting the higher order structure of the KCTD15 protein complex.

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扰乱 KCTD15 寡聚化的 BTB 结构域突变会导致一种独特的额叶发育不良综合征。
简介据报道,KCTD15编码一种低聚BTB结构域蛋白,通过抑制Wnt/beta-catenin信号以及TFAP2的转录激活来抑制神经嵴的形成。与之密切相关的旁系亲 KCTD1 的杂合子错义变体会导致头皮-耳朵-乳头综合征:我们对一个两代同堂的家族进行了外显子组测序,该家族成员具有独特的表型,包括前鼻唇畸形、嗅觉障碍、头皮和/或毛发稀疏的皮肤增生症以及先天性心脏病。在KCTD15中发现了一个新的错义置换,因此对一名受类似影响的散发性患者的DNA进行了靶向测序,发现了一个不同的错义突变。研究人员进行了结构和生物物理分析,以评估两种氨基酸置换对KCTD15蛋白的影响:结果:在一对受影响的父女中发现了 KCTD15 BTB 结构域中编码 p.(Asp104His)的杂合 c.310G>C 变异,该变异与表型分离。在散发性患者中,KCTD15 中存在一个新发杂合 c.263G>A 变体,编码 p.(Gly88Asp)。研究发现,这两种置换都会扰乱 BTB 结构域的五聚体组装。BTB结构域变体p.(Gly88Asp)的晶体结构显示了一个封闭的六聚体组装,而生物物理分析表明,p.(Asp104His)取代导致单体BTB结构域在生理温度下可能部分展开:结论:KCTD1 和 KCTD15 中的 BTB 结构域置换会导致临床表现重叠,包括颅面畸形和切面增生。结构分析表明,错义置换通过破坏 KCTD15 蛋白复合物的高阶结构,通过显性负机制发挥作用。
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来源期刊
Journal of Medical Genetics
Journal of Medical Genetics 医学-遗传学
CiteScore
7.60
自引率
2.50%
发文量
92
审稿时长
4-8 weeks
期刊介绍: Journal of Medical Genetics is a leading international peer-reviewed journal covering original research in human genetics, including reviews of and opinion on the latest developments. Articles cover the molecular basis of human disease including germline cancer genetics, clinical manifestations of genetic disorders, applications of molecular genetics to medical practice and the systematic evaluation of such applications worldwide.
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