卡尔曼综合征
无义突变
内分泌学
FGF8型
遗传学
促性腺激素减退症
内科学
生物
错义突变
先证者
嗅觉缺失
突变
身材矮小
医学
基因
成纤维细胞生长因子
受体
激素
疾病
传染病(医学专业)
2019年冠状病毒病(COVID-19)
作者
Ericka Barbosa Trarbach,Ana Paula Martinez de Abreu,Letícia Ferreira Gontijo Silveira,Heraldo Mendes Garmes,Maria Tereza Matias Baptista,Milena Gurgel Teles,Elaine Maria Frade Costa,Moosa Mohammadi,Nelly Pitteloud,Berenice B. Mendonça,Ana Claudia Latronico
出处
期刊:Endocrine Reviews
[Oxford University Press]
日期:2010-06-01
卷期号:31 (3): 397-397
被引量:5
标识
DOI:10.1210/edrv.31.3.9979
摘要
FGFR1 mutations cause isolated hypogonadotropic hypogonadism (IHH) with or without olfactory abnormalities, Kallmann syndrome, and normosmic IHH respectively. Recently, missense mutations in FGF8, a key ligand for fibroblast growth factor (FGF) receptor 1 in the ontogenesis of GnRH, were identified in IHH patients, thus establishing FGF8 as a novel locus for human GnRH deficiency. Our objective was to analyze the clinical, hormonal, and molecular findings of two familial IHH patients due to FGF8 gene mutations. The entire coding region of the FGF8 gene was amplified and sequenced in two well-phenotyped IHH probands and their relatives. Two unique heterozygous nonsense mutations in FGF8 (p.R127X and p.R129X) were identified in two unrelated IHH probands, which were absent in 150 control individuals. These two mutations, mapped to the core domain of FGF8, impact all four human FGF8 isoforms, and lead to the deletion of a large portion of the protein, generating nonfunctional FGF8 ligands. The p.R127X mutation was identified in an 18-yr-old Kallmann syndrome female. Her four affected siblings with normosmic IHH or delayed puberty also carried the p.R127X mutation. Additional developmental anomalies, including cleft lip and palate and neurosensorial deafness, were also present in this family. The p.R129X mutation was identified in a 30-yr-old man with familial normosmic IHH and severe GnRH deficiency. We identified the first nonsense mutations in the FGF8 gene in familial IHH with variable degrees of GnRH deficiency and olfactory phenotypes, confirming that loss-of-function mutations in FGF8 cause human GnRH deficiency.
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