Center for Excellence in Thyroid Care, Kuma Hospital, Kobe, Japan.
J Endocrinol Invest. 2012 Jan;35(1):49-53. doi: 10.3275/7738. Epub 2011 May 19.
Somatic mutations of the TSH receptor (TSHR) gene are the main cause of autonomously functioning thyroid nodules. Except for mutations in ectodomain residue S281, all of the numerous reported activating mutations are in the TSHR membrane-spanning region. Here, we describe a patient with a toxic adenoma with a novel heterozygous somatic mutation caused by deletion of ectodomain residue Asp403 (Del-D403). Subsequent in vitro functional studies of the Del-D403 TSHR mutation demonstrated greatly increased ligand-independent constitutive activity, 8-fold above that of the wild-type TSHR. TSH stimulation had little further effect, indicating that the mutation produced near maximal activation of the receptor. In summary, we report only the second TSHR ectodomain activating mutation (and the first ectodomain deletion mutation) responsible for development of a thyroid toxic adenoma. Because Del-D403 causes near maximal activation, our finding provides novel insight into TSHR structure and function; residue D403 is more likely to be involved in the ligand-mediated activating pathway than in the ectodomain inverse agonist property.
甲状腺刺激素受体(TSHR)基因的体细胞突变是甲状腺自主功能性结节的主要病因。除了在胞外域残基 S281 处的突变外,报道的大量激活突变都位于 TSHR 跨膜区域。在这里,我们描述了一位患有毒性腺瘤的患者,该患者存在由胞外域残基天冬氨酸 403 缺失(Del-D403)引起的新型杂合体细胞突变。随后对 Del-D403 TSHR 突变的体外功能研究表明,该突变导致配体非依赖性组成型激活显著增加,比野生型 TSHR 高 8 倍。TSH 刺激几乎没有进一步的影响,表明该突变导致受体接近最大激活。总之,我们仅报道了第二个导致甲状腺毒性腺瘤发生的 TSHR 胞外域激活突变(也是第一个胞外域缺失突变)。由于 Del-D403 导致接近最大激活,我们的发现为 TSHR 结构和功能提供了新的见解;残基 D403 更可能参与配体介导的激活途径,而不是胞外域反向激动剂特性。
