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C Sallon Centre INRA de Tours, CNRS, Université de Tours, Haras Nationaux, UMR85 Physiologie de la Reproduction et des Comportements, F-37380 Nouzilly, France
Centre INRA de Tours, CNRS, Université de Tours, Haras Nationaux, UMR85 Physiologie de la Reproduction et des Comportements, F-37380 Nouzilly, France
Centre INRA de Tours, CNRS, Université de Tours, Haras Nationaux, UMR85 Physiologie de la Reproduction et des Comportements, F-37380 Nouzilly, France
Centre INRA de Tours, CNRS, Université de Tours, Haras Nationaux, UMR85 Physiologie de la Reproduction et des Comportements, F-37380 Nouzilly, France

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M O Faure Centre INRA de Tours, CNRS, Université de Tours, Haras Nationaux, UMR85 Physiologie de la Reproduction et des Comportements, F-37380 Nouzilly, France
Centre INRA de Tours, CNRS, Université de Tours, Haras Nationaux, UMR85 Physiologie de la Reproduction et des Comportements, F-37380 Nouzilly, France
Centre INRA de Tours, CNRS, Université de Tours, Haras Nationaux, UMR85 Physiologie de la Reproduction et des Comportements, F-37380 Nouzilly, France
Centre INRA de Tours, CNRS, Université de Tours, Haras Nationaux, UMR85 Physiologie de la Reproduction et des Comportements, F-37380 Nouzilly, France

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J Fontaine Centre INRA de Tours, CNRS, Université de Tours, Haras Nationaux, UMR85 Physiologie de la Reproduction et des Comportements, F-37380 Nouzilly, France
Centre INRA de Tours, CNRS, Université de Tours, Haras Nationaux, UMR85 Physiologie de la Reproduction et des Comportements, F-37380 Nouzilly, France
Centre INRA de Tours, CNRS, Université de Tours, Haras Nationaux, UMR85 Physiologie de la Reproduction et des Comportements, F-37380 Nouzilly, France
Centre INRA de Tours, CNRS, Université de Tours, Haras Nationaux, UMR85 Physiologie de la Reproduction et des Comportements, F-37380 Nouzilly, France

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C Taragnat Centre INRA de Tours, CNRS, Université de Tours, Haras Nationaux, UMR85 Physiologie de la Reproduction et des Comportements, F-37380 Nouzilly, France
Centre INRA de Tours, CNRS, Université de Tours, Haras Nationaux, UMR85 Physiologie de la Reproduction et des Comportements, F-37380 Nouzilly, France
Centre INRA de Tours, CNRS, Université de Tours, Haras Nationaux, UMR85 Physiologie de la Reproduction et des Comportements, F-37380 Nouzilly, France
Centre INRA de Tours, CNRS, Université de Tours, Haras Nationaux, UMR85 Physiologie de la Reproduction et des Comportements, F-37380 Nouzilly, France

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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 (E2) did not significantly affect the levels of BMP4, BMP receptor, and Id2 mRNA. E2, 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.

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L Nicol
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M-O Faure MRC Human Reproductive Sciences Unit, The Queen's Medical Research Institute, UMR 6175 INRA-CNRS-Université de TOURS-Haras Nationaux, Centre for Reproductive Biology, 47 Little France Crescent, Edinburgh, EH16 4TJ, UK

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J R McNeilly
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J Fontaine MRC Human Reproductive Sciences Unit, The Queen's Medical Research Institute, UMR 6175 INRA-CNRS-Université de TOURS-Haras Nationaux, Centre for Reproductive Biology, 47 Little France Crescent, Edinburgh, EH16 4TJ, UK

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C Taragnat MRC Human Reproductive Sciences Unit, The Queen's Medical Research Institute, UMR 6175 INRA-CNRS-Université de TOURS-Haras Nationaux, Centre for Reproductive Biology, 47 Little France Crescent, Edinburgh, EH16 4TJ, UK

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A S McNeilly
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We have shown previously that, in sheep primary pituitary cells, bone morphogenetic proteins (BMP)-4 inhibits FSHβ mRNA expression and FSH release. In contrast, in mouse LβT2 gonadotrophs, others have shown a stimulatory effect of BMPs on basal or activin-stimulated FSHβ promoter-driven transcription. As a species comparison with our previous results, we used LβT2 cells to investigate the effects of BMP-4 on gonadotrophin mRNA and secretion modulated by activin and GnRH. BMP-4 alone had no effect on FSH production, but enhanced the activin+GnRH-induced stimulation of FSHβ mRNA and FSH secretion, without any effect on follistatin mRNA. BMP-4 reduced LHβ mRNA up-regulation in response to GnRH (±activin) and decreased GnRH receptor expression, which would favour FSH, rather than LH, synthesis and secretion. In contrast to sheep pituitary gonadotrophs, which express only BMP receptor types IA (BMPRIA) and II (BMPRII), LβT2 cells also express BMPRIB. Smad1/5 phosphorylation induced by BMP-4, indicating activation of BMP signalling, was the same whether BMP-4 was used alone or combined with activin±GnRH. We hypothesized that activin and/or GnRH pathways may be modulated by BMP-4, but neither the activin-stimulated phosphorylation of Smad2/3 nor the GnRH-induced ERK1/2 or cAMP response element-binding phosphorylation were modified. However, the GnRH-induced activation of p38 MAPK was decreased by BMP-4. This was associated with increased FSHβ mRNA levels and FSH secretion, but decreased LHβ mRNA levels. These results confirm 1. BMPs as important modulators of activin and/or GnRH-stimulated gonadotrophin synthesis and release and 2. important species differences in these effects, which could relate to differences in BMP receptor expression in gonadotrophs.

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M-O Faure UMR 6175 INRA-CNRS-Université de TOURS-Haras Nationaux, Physiologie de la Reproduction et des Comportements, 37380 Nouzilly, France
Medical Research Council, Human Reproductive Sciences Unit, Centre for Reproductive Biology, The University of Edinburgh Chancellor’s Building, 49 Little France Crescent, Old Dalkeith Road, Edinburgh EH16 4SB, UK

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L Nicol UMR 6175 INRA-CNRS-Université de TOURS-Haras Nationaux, Physiologie de la Reproduction et des Comportements, 37380 Nouzilly, France
Medical Research Council, Human Reproductive Sciences Unit, Centre for Reproductive Biology, The University of Edinburgh Chancellor’s Building, 49 Little France Crescent, Old Dalkeith Road, Edinburgh EH16 4SB, UK

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S Fabre UMR 6175 INRA-CNRS-Université de TOURS-Haras Nationaux, Physiologie de la Reproduction et des Comportements, 37380 Nouzilly, France
Medical Research Council, Human Reproductive Sciences Unit, Centre for Reproductive Biology, The University of Edinburgh Chancellor’s Building, 49 Little France Crescent, Old Dalkeith Road, Edinburgh EH16 4SB, UK

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J Fontaine UMR 6175 INRA-CNRS-Université de TOURS-Haras Nationaux, Physiologie de la Reproduction et des Comportements, 37380 Nouzilly, France
Medical Research Council, Human Reproductive Sciences Unit, Centre for Reproductive Biology, The University of Edinburgh Chancellor’s Building, 49 Little France Crescent, Old Dalkeith Road, Edinburgh EH16 4SB, UK

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N Mohoric UMR 6175 INRA-CNRS-Université de TOURS-Haras Nationaux, Physiologie de la Reproduction et des Comportements, 37380 Nouzilly, France
Medical Research Council, Human Reproductive Sciences Unit, Centre for Reproductive Biology, The University of Edinburgh Chancellor’s Building, 49 Little France Crescent, Old Dalkeith Road, Edinburgh EH16 4SB, UK

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A McNeilly UMR 6175 INRA-CNRS-Université de TOURS-Haras Nationaux, Physiologie de la Reproduction et des Comportements, 37380 Nouzilly, France
Medical Research Council, Human Reproductive Sciences Unit, Centre for Reproductive Biology, The University of Edinburgh Chancellor’s Building, 49 Little France Crescent, Old Dalkeith Road, Edinburgh EH16 4SB, UK

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C Taragnat UMR 6175 INRA-CNRS-Université de TOURS-Haras Nationaux, Physiologie de la Reproduction et des Comportements, 37380 Nouzilly, France
Medical Research Council, Human Reproductive Sciences Unit, Centre for Reproductive Biology, The University of Edinburgh Chancellor’s Building, 49 Little France Crescent, Old Dalkeith Road, Edinburgh EH16 4SB, UK

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Activins and inhibins, members of the transforming growth factor-beta family are able to stimulate and inhibit, respectively, FSH synthesis and release. Other members of this superfamily, the bone morphogenetic proteins (BMPs), may also affect FSH synthesis in the mouse. The aim of this work was to determine whether BMPs are expressed in the ovine pituitary and whether they play a role in the regulation of FSH release.

The mRNAs encoding BMP-2, BMP-4, BMP-7 and the oocyte-derived growth factor, growth differentiation factor (GDF)-9 were detected in the pituitaries of cyclic ewes by reverse-transcriptase PCR, as well as the mRNAs encoding the BMP type I receptors, BMPR-IA (activin-receptor-like kinase (ALK)-3) and BMPR-IB (ALK-6), and type II receptors (BMPR-II). Immunolabeling of pituitary sections revealed the presence of BMPR-IA (ALK-3) and BMPR-II in gonadotrope cells. To investigate the potential effects of BMPs on FSH secretion, ewe pituitary cell cultures were treated with BMP-4 (10−11 M to 10−9 M) for 48 h. Interestingly, FSH release was decreased in a dose-dependent manner. At 10−9 M BMP-4 both FSH concentration and FSHβ mRNA expression were reduced by 40% of control values. In contrast, there was no inhibitory effect on either LH or LHβ mRNA expression. A similar result was found with BMP-6. BMP-4 triggered the phosphorylation of Smad1, suggesting that the effect of BMP-4 on FSH secretion is due to the activation of the BMPs signaling pathway. Furthermore, BMP-4 blocked the stimulatory effect of activin on both FSH release and FSHβ mRNA and amplified the suppression of FSH release and FSHβ mRNA levels induced by 17β-estradiol. These results indicate that a functional BMP system operates within the sheep pituitary, at least in vitro, to decrease FSH release and to modulate the effect of activin.

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