部分生长激素不敏感和调节性免疫疾病与从头激活 STAT3 基因突变的胚系突变相关。

Partial growth hormone insensitivity and dysregulatory immune disease associated with de novo germline activating STAT3 mutations.

机构信息

Centro de Investigaciones Endocrinológicas 'Dr César Bergadá' (CEDIE), CONICET, FEI, División de Endocrinología, Hospital de Niños Ricardo Gutiérrez, Buenos Aires, Argentina.

Endocrinología, Hospital Universitario Austral, Buenos Aires, Argentina.

出版信息

Mol Cell Endocrinol. 2018 Sep 15;473:166-177. doi: 10.1016/j.mce.2018.01.016. Epub 2018 Feb 3.

DOI:10.1016/j.mce.2018.01.016

PMID:29378236

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6143347/

Abstract

Germinal heterozygous activating STAT3 mutations represent a novel monogenic defect associated with multi-organ autoimmune disease and, in some cases, severe growth retardation. By using whole-exome sequencing, we identified two novel STAT3 mutations, p.E616del and p.C426R, in two unrelated pediatric patients with IGF-I deficiency and immune dysregulation. The functional analyses showed that both variants were gain-of-function (GOF), although they were not constitutively phosphorylated. They presented differences in their dephosphorylation kinetics and transcriptional activities under interleukin-6 stimulation. Both variants increased their transcriptional activities in response to growth hormone (GH) treatment. Nonetheless, STAT5b transcriptional activity was diminished in the presence of STAT3 GOF variants, suggesting a disruptive role of STAT3 GOF variants in the GH signaling pathway. This study highlights the broad clinical spectrum of patients presenting activating STAT3 mutations and explores the underlying molecular pathway responsible for this condition, suggesting that different mutations may drive increased activity by slightly different mechanisms.

摘要

胚系杂合性激活 STAT3 突变代表了一种与多器官自身免疫性疾病相关的新型单基因缺陷，在某些情况下还与严重的生长迟缓相关。通过全外显子组测序，我们在两名患有 IGF-I 缺乏和免疫失调的无关儿科患者中发现了两种新型 STAT3 突变，p.E616del 和 p.C426R。功能分析表明，这两种变体均为功能获得性（GOF），尽管它们不具有组成性磷酸化。它们在白细胞介素-6 刺激下的去磷酸化动力学和转录活性方面存在差异。两种变体均能增加对生长激素（GH）治疗的转录活性。然而，在存在 STAT3 GOF 变体的情况下，STAT5b 的转录活性降低，表明 STAT3 GOF 变体在 GH 信号通路中具有破坏作用。本研究强调了携带激活 STAT3 突变的患者的广泛临床表型，并探讨了导致这种情况的潜在分子途径，表明不同的突变可能通过略有不同的机制驱动活性增加。

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