一种隐性突变导致 LHX3 同源域中一个失活的氨基酸取代（T194R），从而导致垂体激素联合缺乏。

A recessive mutation resulting in a disabling amino acid substitution (T194R) in the LHX3 homeodomain causes combined pituitary hormone deficiency.

机构信息

Pediatric Endocrinology and Diabetology, Ludwig Maximilians University of Munich, Munich, Germany.

出版信息

Horm Res Paediatr. 2012;77(1):41-51. doi: 10.1159/000335929. Epub 2012 Jan 26.

DOI:10.1159/000335929

PMID:22286346

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3355643/

Abstract

BACKGROUND/AIMS: Recessive mutations in the LHX3 homeodomain transcription factor gene are associated with developmental disorders affecting the pituitary and nervous system. We describe pediatric patients with combined pituitary hormone deficiency (CPHD) who harbor a novel mutation in LHX3.

METHODS

Two female siblings from related parents were examined. Both patients had neonatal complications. The index patient had CPHD featuring deficiencies of GH, LH, FSH, PRL, and TSH, with later onset of ACTH deficiency. She also had a hypoplastic anterior pituitary, respiratory distress, hearing impairment, and limited neck rotation. The LHX3 gene was sequenced and the biochemical properties of the predicted altered proteins were characterized.

RESULTS

A novel homozygous mutation predicted to change amino acid 194 from threonine to arginine (T194R) was detected in both patients. This amino acid is conserved in the DNA-binding homeodomain. Computer modeling predicted that the T194R change would alter the homeodomain structure. The T194R protein did not bind tested LHX3 DNA recognition sites and did not activate the α-glycoprotein and PRL target genes.

CONCLUSION

The T194R mutation affects a critical residue in the LHX3 protein. This study extends our understanding of the phenotypic features, molecular mechanism, and developmental course associated with mutations in the LHX3 gene.

摘要

背景/目的：LHX3 同源盒转录因子基因的隐性突变与影响垂体和神经系统的发育障碍有关。我们描述了携带 LHX3 新突变的患有联合垂体激素缺乏症（CPHD）的儿科患者。

方法

对来自相关父母的两名女性同胞进行了检查。两名患者均有新生儿并发症。指数患者患有 CPHD，其特征是 GH、LH、FSH、PRL 和 TSH 缺乏，随后出现 ACTH 缺乏。她还患有垂体前叶发育不全、呼吸窘迫、听力障碍和颈部旋转受限。对 LHX3 基因进行了测序，并对预测改变的蛋白质的生化特性进行了表征。

结果

在两名患者中均检测到一种新型纯合突变，预测该突变会使第 194 位氨基酸由苏氨酸变为精氨酸（T194R）。该氨基酸在 DNA 结合同源盒中保守。计算机建模预测 T194R 变化会改变同源盒结构。T194R 蛋白不能结合测试的 LHX3 DNA 识别位点，也不能激活α-糖蛋白和 PRL 靶基因。

结论

T194R 突变影响 LHX3 蛋白中的关键残基。这项研究扩展了我们对 LHX3 基因突变相关表型特征、分子机制和发育过程的理解。

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