kisspeptin 信号通路及其在人类孤立性 GnRH 缺乏症中的作用。
The kisspeptin signaling pathway and its role in human isolated GnRH deficiency.
机构信息
Harvard Center for Reproductive Sciences and Reproductive Endocrine Unit, Department of Medicine, Massachusetts General Hospital, Boston, MA 02114, United States.
出版信息
Mol Cell Endocrinol. 2011 Oct 22;346(1-2):29-36. doi: 10.1016/j.mce.2011.05.043. Epub 2011 Jun 17.
Abstract
Amplification of the neurosecretory activity of the GnRH system is the defining neuroendocrine event for sexual maturation. The physiological mechanisms that drive GnRH secretion at puberty have been difficult to identify but the discovery in 2003 that the G protein coupled receptor KISS1R is a key regulator of pubertal development in mice and men has ushered in a new chapter in reproductive neuroendocrinology. KISS1R is activated by endogenous peptides derived from a precursor protein, kisspeptin. Despite kisspeptin's importance in driving the reproductive cascade, relatively few patients with GnRH deficient states and mutations in the kisspeptin pathway have been described. Yet, these cases, coupled with loss-of-function mouse models, provide unique and complementary information into the biological role of this signaling system in the control of GnRH secretion. This article will examine some of the subtleties in genotype-phenotype correlations in both mice and men carrying disabling mutations in the kisspeptin pathway.
摘要
促性腺激素释放激素(GnRH)系统的神经分泌活性增强是性成熟的决定性神经内分泌事件。青春期 GnRH 分泌的生理机制很难确定,但 2003 年发现 G 蛋白偶联受体 Kiss1R 是小鼠和男性青春期发育的关键调节剂,这为生殖神经内分泌学开辟了一个新的篇章。Kiss1R 被来源于前体蛋白 kisspeptin 的内源性肽激活。尽管 kisspeptin 在驱动生殖级联反应中很重要,但描述 GnRH 缺乏状态和 kisspeptin 途径突变的患者相对较少。然而,这些病例,加上功能丧失型小鼠模型,为该信号系统在 GnRH 分泌控制中的生物学作用提供了独特而互补的信息。本文将探讨携带 kisspeptin 途径失活突变的小鼠和男性中基因型-表型相关性的一些细微差别。
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