Centre INRA de Tours, UMR85 Physiologie de la Reproduction et des Comportements, Nouzilly, France.
J Endocrinol. 2010 Oct;207(1):55-65. doi: 10.1677/JOE-10-0035. Epub 2010 Jul 30.
Recently, bone morphogenetic protein (BMP) 4 has been shown to inhibit FSH secretion in ewe. The detection of BMP4 mRNA and BMP receptors in the pituitary suggests that BMP4 can exert paracrine actions on FSH production. This work aimed at determining whether BMP4 and/or BMP receptor mRNA as well as activin/inhibin subunit mRNA fluctuates during the estrous cycle when FSHβ mRNA and FSH release changed. The estrous cycles of ewes were synchronized with progestagen sponges. Ewes were killed in late follicular stage (n=5), before the secondary FSH surge (n=4), and in luteal phase (n=4). Using quantitative reverse transcription-PCR, we showed that the levels of mRNA for BMP4, BMP receptor, the inhibitor of differentiation 2 (Id2), a target gene of BMP4, and noggin did not change significantly across the estrous cycle. In contrast, the level of activin βB mRNA and the percentage of immunoreactive cells for activin βB-subunit were higher before the secondary surge of FSH compared to other groups. In ewe pituitary cell cultures, activin, GnRH, or estradiol-17β (E(2)) did not significantly affect the levels of BMP4, BMP receptor, and Id2 mRNA. E(2), but not GnRH, increased the level of activin βB mRNA. Moreover, the in vitro FSH release was not modified by noggin, a BMP antagonist. In contrast, SB431542, an inhibitor of activin pathway, inhibited FSH release. Collectively, our data showed that pituitary BMP4 would not play a crucial role in the regulation of FSH production during the estrous cycle, whereas local activin B would be a major stimulus of FSH synthesis necessary for the secondary FSH surge.
最近的研究表明,骨形态发生蛋白 4(BMP)4 可以抑制绵羊的 FSH 分泌。BMP4mRNA 和 BMP 受体在垂体中的检测表明,BMP4 可以对 FSH 产生发挥旁分泌作用。本研究旨在确定在 FSHβmRNA 和 FSH 释放发生变化时,BMP4 和/或 BMP 受体 mRNA 以及激活素/抑制素亚基 mRNA 是否会在发情周期中波动。使用孕激素海绵对绵羊发情周期进行同步化。在卵泡晚期(n=5)、二次 FSH 激增前(n=4)和黄体期(n=4)处死绵羊。通过定量逆转录 PCR,我们发现 BMP4、BMP 受体、分化抑制因子 2(Id2)、BMP4 的靶基因和 noggin 的 mRNA 水平在发情周期中没有明显变化。相比之下,在二次 FSH 激增前,激活素βBmRNA 的水平和激活素βB 亚基免疫反应细胞的百分比均高于其他组。在绵羊垂体细胞培养中,激活素、GnRH 或雌二醇-17β(E2)均未显著影响 BMP4、BMP 受体和 Id2mRNA 的水平。E2 但不是 GnRH 增加了激活素βBmRNA 的水平。此外,BMP 拮抗剂 noggin 并未改变体外 FSH 的释放。相反,激活素途径抑制剂 SB431542 抑制了 FSH 的释放。总之,我们的数据表明,在发情周期中,垂体 BMP4 不会在调节 FSH 产生中发挥关键作用,而局部的激活素 B 将是二次 FSH 激增所必需的 FSH 合成的主要刺激物。
