Grasberger Helmut, Van Sande Jacqueline, Hag-Dahood Mahameed Ahmad, Tenenbaum-Rakover Yardena, Refetoff Samuel
Departments of Medicine, The University of Chicago, Chicago, Illinois 60637, USA.
J Clin Endocrinol Metab. 2007 Jul;92(7):2816-20. doi: 10.1210/jc.2007-0366. Epub 2007 Apr 24.
In the human thyroid gland, TSH activates both the cAMP and inositol phosphates (IP) signaling cascades via binding to the TSH receptor (TSHR). Biallelic TSHR loss-of-function mutations cause resistance to TSH, clinically characterized by hyperthyrotropinemia, and normal or reduced thyroid gland volume, thyroid hormone output, and iodine uptake.
We report and study a novel familial TSHR mutation (L653V).
Homozygous individuals expressing L653V had euthyroid hyperthyrotropinemia. Paradoxically, patients had significantly higher 2-h radioiodide uptake and 2- to 24-h radioiodide uptake ratios compared with heterozygous, unaffected family members, suggesting an imbalance between iodide trapping and organification. In transfected COS-7 cells, the mutant TSHR had normal surface expression, basal activity, and TSH-binding affinity, equally (2.2-fold) increased EC50 values for TSH-induced cAMP and IP accumulation, and normal maximum cAMP generation. In contrast, the efficacy of TSH for generating IP was more than 7-fold lower with the mutant compared with wild-type TSHR.
We identified and characterized a TSHR defect, preferentially affecting the IP pathway, with a phenotype distinct from previously reported loss-of-function mutations. Results provide the first in vivo evidence for the physiological role of the TSHR/IP/Ca2+ cascade in regulating iodination. According to systematic in vitro mutagenesis studies, other TSHR mutations can result in even complete loss of IP signaling with retained cAMP induction. We hypothesize that such TSHR mutations could be the cause in unexplained partial organification defects.
在人类甲状腺中,促甲状腺激素(TSH)通过与促甲状腺激素受体(TSHR)结合激活环磷酸腺苷(cAMP)和肌醇磷酸(IP)信号级联反应。双等位基因TSHR功能丧失突变导致对TSH抵抗,临床表现为高促甲状腺激素血症,甲状腺体积正常或减小,甲状腺激素分泌及碘摄取正常或降低。
我们报告并研究了一种新的家族性TSHR突变(L653V)。
表达L653V的纯合个体甲状腺功能正常但促甲状腺激素水平升高。矛盾的是,与杂合的未受影响家庭成员相比,患者的2小时放射性碘摄取及2至24小时放射性碘摄取率显著更高,提示碘捕获与有机化之间失衡。在转染的COS-7细胞中,突变型TSHR具有正常的表面表达、基础活性和TSH结合亲和力,TSH诱导的cAMP和IP积累的半数有效浓度(EC50)值同样(2.2倍)升高,且cAMP最大生成量正常。相比之下,与野生型TSHR相比,突变型TSH产生IP的效能降低了7倍以上。
我们鉴定并描述了一种TSHR缺陷,其优先影响IP途径,其表型与先前报道的功能丧失突变不同。结果为TSHR/IP/Ca2+级联在调节碘化中的生理作用提供了首个体内证据。根据系统的体外诱变研究,其他TSHR突变可能导致IP信号完全丧失而cAMP诱导保留。我们推测这种TSHR突变可能是不明原因的部分有机化缺陷的原因。
