Fang Peng, Girgis Rose, Little Brian M, Pratt Katherine L, Guevara-Aguirre Jaime, Hwa Vivian, Rosenfeld Ron G
Department of Pediatrics, NRC5, Oregon Health and Science University, 3181 SW Sam Jackson Park Road, Portland, Oregon 97239-3098, USA.
J Clin Endocrinol Metab. 2008 Mar;93(3):1030-7. doi: 10.1210/jc.2007-2022. Epub 2007 Dec 11.
Among more than 250 cases of GH insensitivity syndrome (GHIS) reported to date, the largest cohort was identified in southern Ecuador. In the Ecuadorian GHIS cohort, a sense mutation (GAA>GAG) at codon E180 of GH receptor [GHR (E180sp)] results in deletion of codons 181-188. No functional studies of this mutation have been performed, nor have different mutations at codon 180 been reported.
We now report identification of a novel GHR mutation, also within codon E180, in two distantly related GHIS subjects of Inuit origin and provide mechanistic insights into the defects caused by the Inuit and Ecuadorian GHR mutations.
The two Inuit subjects, with heights of -5 sd score and -7 sd score, respectively, had elevated circulating levels of GH but low levels of GH-binding protein, IGF-I, and IGF-binding protein-3.
Both Inuit subjects carry the same novel nonsense homozygous GHR mutation at codon E180 (GAA->TAA, E180X). In vitro reconstitution experiments demonstrated that GHR (E180sp), but not GHR (E180X), could be stably expressed. GHR (E180sp), however, could not bind GH and could neither activate signal transducer and activator of transcription-5b nor induce -5b-dependent gene expression on GH treatment. Furthermore, the GHR (E180sp), which has a deletion of eight amino acid residues within the GHR dimerization domain, although retaining the ability to homodimerize, was defective in trafficking to the cell surface.
The E180X mutation identified in two Inuit patients resulted in a truncated, unstably expressed GHR variant, whereas the E180 splicing mutation previously identified in the Ecuadorian cohort, affected both GH binding and GHR trafficking and rendered the abnormal GHR nonfunctional.
在迄今为止报告的250多例生长激素不敏感综合征(GHIS)病例中,最大的队列是在厄瓜多尔南部发现的。在厄瓜多尔GHIS队列中,生长激素受体[GHR (E180sp)]密码子E180处的一个错义突变(GAA>GAG)导致密码子181 - 188缺失。尚未对该突变进行功能研究,也未报告密码子180处的不同突变。
我们现在报告在两名远亲的因纽特人起源的GHIS受试者中鉴定出一种同样在密码子E180内的新型GHR突变,并对因纽特人和厄瓜多尔人GHR突变所导致的缺陷提供机制性见解。
这两名因纽特人受试者的身高标准差评分分别为 - 5和 - 7,循环生长激素水平升高,但生长激素结合蛋白、胰岛素样生长因子 - I(IGF - I)和胰岛素样生长因子结合蛋白 - 3水平较低。
两名因纽特人受试者在密码子E180处均携带相同的新型纯合无义GHR突变(GAA->TAA,E180X)。体外重组实验表明,GHR (E180sp) 可以稳定表达,但GHR (E180X) 不能。然而,GHR (E180sp) 不能结合生长激素,在生长激素处理时既不能激活信号转导子和转录激活子5b(STAT5b),也不能诱导依赖STAT5b的基因表达。此外,GHR (E180sp) 在GHR二聚化结构域内缺失八个氨基酸残基,尽管保留了同源二聚化的能力,但在转运到细胞表面方面存在缺陷。
在两名因纽特人患者中鉴定出的E180X突变导致了一种截短的、表达不稳定的GHR变体,而先前在厄瓜多尔队列中鉴定出的E180剪接突变影响了生长激素结合和GHR转运,并使异常的GHR无功能。
