Genetic variants of G-protein coupled receptors associated with pubertal disorders.

IF 2.7 3区医学 Q2 OBSTETRICS & GYNECOLOGY

Reproductive Medicine and Biology Pub Date : 2023-04-27 eCollection Date: 2023-01-01 DOI:10.1002/rmb2.12515

Erina Suzuki, Mami Miyado, Yoko Kuroki, Maki Fukami

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引用次数: 0

Abstract

Background: The human hypothalamic-pituitary-gonadal (HPG) axis is the regulatory center for pubertal development. This axis involves six G-protein coupled receptors (GPCRs) encoded by KISS1R, TACR3, PROKR2, GNRHR, LHCGR, and FSHR.

Methods: Previous studies have identified several rare variants of the six GPCR genes in patients with pubertal disorders. In vitro assays and animal studies have provided information on the function of wild-type and variant GPCRs.

Main findings: Of the six GPCRs, those encoded by KISS1R and TACR3 are likely to reside at the top of the HPG axis. Several loss-of-function variants in the six genes were shown to cause late/absent puberty. In particular, variants in KISS1R, TACR3, PROKR2, and GNRHR lead to hypogonadotropic hypogonadism in autosomal dominant, recessive, and oligogenic manners. Furthermore, a few gain-of-function variants of KISS1R, PROKR2, and LHCGR have been implicated in precocious puberty. The human HPG axis may contain additional GPCRs.

Conclusion: The six GPCRs in the HPG axis govern pubertal development through fine-tuning of hormone secretion. Rare sequence variants in these genes jointly account for a certain percentage of genetic causes of pubertal disorders. Still, much remains to be clarified about the molecular network involving the six GPCRs.

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与青春期障碍有关的 G 蛋白偶联受体基因变异。

背景：人类下丘脑-垂体-性腺轴（HPG）是青春期发育的调节中心。该轴涉及由 KISS1R、TACR3、PROKR2、GNRHR、LHCGR 和 FSHR 编码的六种 G 蛋白偶联受体（GPCR）：以前的研究已在青春期发育障碍患者中发现了这六种 GPCR 基因的几种罕见变异。体外实验和动物实验提供了有关野生型和变异型 GPCR 功能的信息：主要发现：在六个 GPCR 中，KISS1R 和 TACR3 编码的 GPCR 可能位于 HPG 轴的顶端。这六个基因中的几个功能缺失变体被证明会导致青春期延迟/缺失。其中，KISS1R、TACR3、PROKR2 和 GNRHR 的变异会导致常染色体显性、隐性和寡显性性腺功能减退症。此外，KISS1R、PROKR2 和 LHCGR 的一些功能增益变异也与性早熟有关。人类 HPG 轴可能还包含其他 GPCR：结论：HPG轴中的六个GPCR通过微调激素分泌来控制青春期发育。这些基因的罕见序列变异共同导致了一定比例的青春期发育障碍遗传病因。不过，关于涉及这六个 GPCR 的分子网络，仍有许多问题有待澄清。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Reproductive Medicine and Biology Multiple-

CiteScore

5.70

自引率

5.90%

发文量

审稿时长

20 weeks

期刊介绍： Reproductive Medicine and Biology (RMB) is the official English journal of the Japan Society for Reproductive Medicine, the Japan Society of Fertilization and Implantation, the Japan Society of Andrology, and publishes original research articles that report new findings or concepts in all aspects of reproductive phenomena in all kinds of mammals. Papers in any of the following fields will be considered: andrology, endocrinology, oncology, immunology, genetics, function of gonads and genital tracts, erectile dysfunction, gametogenesis, function of accessory sex organs, fertilization, embryogenesis, embryo manipulation, pregnancy, implantation, ontogenesis, infectious disease, contraception, etc.