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促性腺激素细胞特异性Foxl2基因敲除小鼠的生育力受损及促卵泡激素合成障碍

Impaired fertility and FSH synthesis in gonadotrope-specific Foxl2 knockout mice.

作者信息

Tran Stella, Zhou Xiang, Lafleur Christine, Calderon Michael J, Ellsworth Buffy S, Kimmins Sarah, Boehm Ulrich, Treier Mathias, Boerboom Derek, Bernard Daniel J

机构信息

Department of Pharmacology and Therapeutics, McGill University, Montréal, Québec, Canada.

出版信息

Mol Endocrinol. 2013 Mar;27(3):407-21. doi: 10.1210/me.2012-1286. Epub 2013 Jan 22.

DOI:10.1210/me.2012-1286
PMID:23340250
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3589670/
Abstract

Impairments in pituitary FSH synthesis or action cause infertility. However, causes of FSH dysregulation are poorly described, in part because of our incomplete understanding of mechanisms controlling FSH synthesis. Previously, we discovered a critical role for forkhead protein L2 (FOXL2) in activin-stimulated FSH β-subunit (Fshb) transcription in immortalized cells in vitro. Here, we tested the hypothesis that FOXL2 is required for FSH synthesis in vivo. Using a Cre/lox approach, we selectively ablated Foxl2 in murine anterior pituitary gonadotrope cells. Conditional knockout (cKO) mice developed overtly normally but were subfertile in adulthood. Testis size and spermatogenesis were significantly impaired in cKO males. cKO females exhibited reduced ovarian weight and ovulated fewer oocytes in natural estrous cycles compared with controls. In contrast, ovaries of juvenile cKO females showed normal responses to exogenous gonadotropin stimulation. Both male and female cKO mice were FSH deficient, secondary to diminished pituitary Fshb mRNA production. Basal and activin-stimulated Fshb expression was similarly impaired in Foxl2 depleted primary pituitary cultures. Collectively, these data definitively establish FOXL2 as the first identified gonadotrope-restricted transcription factor required for selective FSH synthesis in vivo.

摘要

垂体促卵泡激素(FSH)合成或作用受损会导致不孕。然而,FSH调节异常的原因却鲜有描述,部分原因是我们对控制FSH合成的机制了解不全面。此前,我们发现叉头蛋白L2(FOXL2)在体外永生化细胞中对激活素刺激的FSHβ亚基(Fshb)转录起关键作用。在此,我们验证了FOXL2在体内FSH合成中不可或缺这一假说。我们采用Cre/lox方法,在小鼠垂体前叶促性腺激素细胞中选择性敲除Foxl2。条件性敲除(cKO)小鼠外观发育正常,但成年后生育力低下。cKO雄性小鼠的睾丸大小和精子发生显著受损。与对照组相比,cKO雌性小鼠在自然发情周期中卵巢重量减轻,排卵的卵母细胞数量减少。相比之下,幼年cKO雌性小鼠的卵巢对外源性促性腺激素刺激表现出正常反应。雄性和雌性cKO小鼠均存在FSH缺乏,这是由于垂体Fshb mRNA生成减少所致。在Foxl2缺失的原代垂体培养物中,基础状态和激活素刺激下的Fshb表达同样受损。总体而言,这些数据明确证实FOXL2是体内选择性FSH合成所需的首个被鉴定的促性腺激素特异性转录因子。

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