Department of Molecular Endocrinology, National Research Institute for Child Health and Development, Tokyo, Japan.
Department of Pediatrics, Hamamatsu University School of Medicine, Hamamatsu, Japan.
Clin Endocrinol (Oxf). 2018 Mar;88(3):351-359. doi: 10.1111/cen.13496. Epub 2017 Nov 7.
The human genome encodes more than 700 G-protein-coupled receptors (GPCRs), many of which are involved in hormone secretion. To date, more than 100 gain-of-function (activating) mutations in at least ten genes for GPCRs, in addition to several loss-of-function mutations, have been implicated in human endocrine disorders. Previously reported gain-of-function GPCR mutations comprise various missense substitutions, frameshift mutations, intragenic inframe deletions and copy-number gains. Such mutations appear in both germline and somatic tumour cells, and lead to various hormonal abnormalities reflecting excessive receptor activity. Phenotypic consequences of these mutations include distinctive endocrine syndromes, as well as relatively common hormonal abnormalities. Such mutations encode hyperfunctioning receptors with increased constitutive activity, broadened ligand specificity, increased ligand sensitivity and/or delayed receptor desensitization. Furthermore, recent studies proposed a paradoxical gain-of-function mechanism caused by inactive GPCR mutants. Molecular diagnosis of GPCR activating mutations serves to improve the clinical management of mutation-positive patients. This review aims to introduce new aspects regarding gain-of-function mutations in GPCR genes associated with endocrine disorders.
人类基因组编码了超过 700 种 G 蛋白偶联受体(GPCR),其中许多受体参与激素分泌。迄今为止,至少十种 GPCR 基因的功能获得性(激活)突变(除了几种功能丧失性突变)已被认为与人类内分泌疾病有关。先前报道的功能获得性 GPCR 突变包括各种错义取代、移码突变、内含子框架内缺失和拷贝数增加。这些突变出现在种系和体细胞肿瘤细胞中,并导致各种反映受体过度活性的激素异常。这些突变的表型后果包括独特的内分泌综合征以及相对常见的激素异常。这些突变编码具有增强的组成型活性、更广泛的配体特异性、增加的配体敏感性和/或延迟的受体脱敏的功能过强的受体。此外,最近的研究提出了一种由无活性 GPCR 突变体引起的矛盾性功能获得机制。GPCR 激活突变的分子诊断有助于改善突变阳性患者的临床管理。本综述旨在介绍与内分泌疾病相关的 GPCR 基因功能获得性突变的新方面。
