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一种新型显性负性 FGFR1 变异导致 Hartsfield 综合征,其机制是通过失调 RAS/ERK1/2 通路。

A novel dominant-negative FGFR1 variant causes Hartsfield syndrome by deregulating RAS/ERK1/2 pathway.

机构信息

Fondazione IRCCS Casa Sollievo della Sofferenza, Division of Medical Genetics, San Giovanni Rotondo, FG, Italy.

Department of Pharmacological and Biomolecular Sciences, Università degli Studi di Milano, Studi di Milano, Italy.

出版信息

Eur J Hum Genet. 2019 Jul;27(7):1113-1120. doi: 10.1038/s41431-019-0350-4. Epub 2019 Feb 20.

DOI:10.1038/s41431-019-0350-4
PMID:30787447
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6777633/
Abstract

Hartsfield syndrome (HS) is an ultrarare developmental disorder mainly featuring holoprosencephaly and ectrodactyly. It is caused by heterozygous or biallelic variants in FGFR1. Recently, a dominant-negative effect was suggested for FGFR1 variants associated with HS. Here, exome sequencing analysis in a 12-year-old boy with HS disclosed a novel de novo heterozygous variant c.1934C>T in FGFR1 predicted to cause the p.(Ala645Val) amino-acid substitution. In order to evaluate whether the variant, changing a highly conserved residue of the kinase domain, affects FGFR1 function, biochemical studies were employed. We measured the FGFR1 receptor activity in FGF2-treated cell lines exogenously expressing wild-type or Ala645Val FGFR1 by monitoring the activation status of FGF2/FGFR1 downstream pathways. Our analysis highlighted that RAS/ERK1/2 signaling was significantly perturbed in cells expressing mutated FGFR1, in comparison with control cells. We also provided preliminary evidence showing a modulation of the autophagic process in cells expressing mutated FGFR1. This study expands the FGFR1 mutational spectrum associated with HS, provides functional evidence further supporting a dominant-negative effect of this category of FGFR1 variants and offers initial insights on dysregulation of autophagy in HS.

摘要

哈特斯菲尔德综合征(HS)是一种极罕见的发育障碍,主要表现为全前脑畸形和并指(趾)畸形。它是由 FGFR1 的杂合子或纯合子变异引起的。最近,有人提出与 HS 相关的 FGFR1 变异具有显性负效应。在这里,通过对一名 12 岁患有 HS 的男孩进行外显子组测序分析,发现了 FGFR1 中的一个新的杂合性缺失突变 c.1934C>T,预测会导致 p.(Ala645Val) 氨基酸取代。为了评估改变激酶结构域高度保守残基的变异是否会影响 FGFR1 功能,我们进行了生化研究。我们通过监测 FGF2/FGFR1 下游途径的激活状态,测量了在 FGF2 处理下表达野生型或 Ala645Val FGFR1 的细胞系中 FGFR1 受体的活性。我们的分析表明,与对照细胞相比,表达突变型 FGFR1 的细胞中 RAS/ERK1/2 信号显著受到干扰。我们还提供了初步证据,表明在表达突变型 FGFR1 的细胞中自噬过程受到调节。本研究扩展了与 HS 相关的 FGFR1 突变谱,提供了进一步支持此类 FGFR1 变异具有显性负效应的功能证据,并为 HS 中自噬失调提供了初步见解。

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