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4. Oocyte-specific inactivation of Omcg1 leads to DNA damage and c-Abl/TAp63-dependent oocyte death associated with dramatic remodeling of ovarian somatic cells.

Author

Vandormael-Pournin, S, Guigon, C J, Ishaq, M, Coudouel, N, Avé, P, Huerre, M, Magre, S, Cohen-Tannoudji, J, and Cohen-Tannoudji, M

Subjects
OVUM enzymes, OVUM proteins, OVARIAN proteins, CELL death inhibition, SOMATIC cells
Abstract

Aberrant loss of oocytes following cancer treatments or genetic mutations leads to premature ovarian insufficiency (POI) associated with endocrine-related disorders in 1% of women. Therefore, understanding the mechanisms governing oocyte death is crucial for the preservation of female fertility. Here, we report the striking reproductive features of a novel mouse model of POI obtained through oocyte-specific inactivation (ocKO) of Omcg1/Zfp830 encoding a nuclear zinc finger protein involved in pre-mRNA processing. Genetic ablation of OMCG1 in early growing oocytes leads to reduced transcription, accumulation of DNA double-strand breaks and subsequent c-Abl/TAp63-dependent oocyte death, thus uncovering the key role of OMCG1 for oocyte genomic integrity. All adult Omcg1ocKO females displayed complete elimination of early growing oocytes and sterility. Unexpectedly, mutant females exhibited a normal onset of puberty and sexual receptivity. Detailed studies of Omcg1ocKO ovaries revealed that the ovarian somatic compartment underwent a dramatic structural and functional remodeling. This allowed the cooperation between oocyte-depleted follicles and interstitial tissue to produce estradiol. Moreover, despite early folliculogenesis arrest, mutant mice exhibited sexual cyclicity as shown by cyclical changes in estrogen secretion, vaginal epithelium cytology and genital tract weight. Collectively, our findings demonstrate the key role of Omcg1 for oocyte survival and highlight the contribution of p63 pathway in damaged oocyte elimination in adulthood. Moreover, our findings challenge the prevailing view that sexual cyclicity is tightly dependent upon the pace of folliculogenesis and luteal differentiation. [ABSTRACT FROM AUTHOR]

Published
2015
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9. Regulation by pH of the alternative splicing of the stem cell factor pre-mRNA in the testis.

Author

Mauduit, C, Chatelain, G, Magre, S, Brun, G, Benahmed, M, and Michel, D

Abstract

Proliferation and differentiation of progenitor stem cells are mainly controlled by diffusible and adhesion molecules. Stem cell factor (SCF), an essential regulator of spermatogenesis produced by Sertoli cells, utilize both modes of cell to cell communication. Indeed, SCF exists in soluble (SCFs) and membrane-bound (SCFm) forms, which are required for a complete spermatogenesis, and are generated by alternative splicing of optional exon 6, encoding sites of proteolysis. We show that in the mouse testis, the alternative splicing of SCF is developmentally regulated. SCFs predominates in fetal and neonatal gonads and is then replaced by SCFm in the prepubertal and adult gonads. By sequencing SCF exon 6, we show that the flanking intronic sequences perfectly follow the gt-at rule, suggesting that the basal splicing machinery might not be responsible by itself for exon 6 skipping. Moreover, freshly isolated Sertoli cells mainly express SCFm, but a switch to SCFs occurs after 48 h of culture. We found that this change can be prevented by acidification of the culture medium at pH 6.3 or by addition of lactate. The sustained synthesis of SCFm at low pH was no longer observed in the presence of cycloheximide, suggesting that SCF exon 6 skipping requires de novo protein synthesis. Accordingly, UV cross-linking experiments show that nuclear Sertoli cell protein(s) bind in a sequence-specific manner to exon 6. Together, our data allow the proposal of an integrated mechanism in which the synthesis of lactate by Sertoli cells is used in the same time as an energetic substrate for germ cells and as a promoter of their survival/proliferation through the production of SCFm.

Published
1999

10. Experimental control of the differentiation of Leydig cells in the rat fetal testis.

Author

Jost, A, Perlman, S, Valentino, O, Castanier, M, Scholler, R, and Magre, S

Abstract

In the developing fetal testis, in vitro as well as in vivo, two kinds of endocrine cells differentiate successively: Sertoli cells, which produce the Müllerian inhibitor (or anti-Müllerian hormone) and aggregate with germ cells into seminiferous cords; and Leydig cells, which release androgens. Serum added to the synthetic culture medium prevents the morphogenesis of the seminiferous cords but not the cytodifferentiation of the endocrine cells. L-Azetidine 2-carboxylic acid (LACA), a proline competitor, introduced into the medium also prevents differentiation of seminiferous cords. In the present experiments, the effects of LACA on the endocrine cells were studied. It did not suppress production of the Müllerian inhibitor, but it opposed differentiation of Leydig cells. Histochemically detectable 3 beta-hydroxysteroid dehydrogenase (3 beta-HSD) was virtually absent and the release of testosterone, delta 4-androstenedione, 17-hydroxyprogesterone, or progesterone into the medium became undetectable. Moreover, dibutyryl cAMP added to the medium during the final day in vitro had very little effect on the parameters of steroidogenesis. An excess of proline added to the LACA-containing medium permitted normal morphogenesis of seminiferous cords, normal steroidogenesis, and normal response to cAMP. LACA did not prevent the appearance of 3 beta-HSD activity in the adrenals, nor did it reduce the expression of laminin and fibronectin (data not shown) in the mesonephric structures as much as in the testes. The differentiation of the testis and especially of the Leydig cells appears to have special requirements for proline.

Published
1988
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11. Dissociation between testicular organogenesis and endocrine cytodifferentiation of Sertoli cells.

Author

Magre, S and Jost, A

Abstract

Differentiation of the rat testis from the undifferentiated primordium begins with the appearance of a new cell type characterized by a large and clear cytoplasm. These cells aggregate, enclose germ cells, and progressively form seminiferous cords. Therefore, they were considered primordial Sertoli cells. A similar process was obtained in vitro in explants cultured in a synthetic medium. On the contrary, when fetal calf serum was added to the medium, the organization of seminiferous cords was impaired; large clear cells appeared, but they did not aggregate. Instead, they remained scattered throughout the abnormal gonad. The present experiments were undertaken to verify whether these cells are in fact Sertoli cells. The production of Müllerian inhibitor is a marker of fetal Sertoli cells. Therefore, undifferentiated gonadal primordia from 12-day 16-hr old male rat fetuses were cultured for 2 days in vitro with serum and then associated for 3 days with 14.5-day-old sex ducts from female fetuses. Müllerian ducts were inhibited as well by the abnormal cordless gonads as by those with differentiated sex cords. These experiments confirm previous views on testicular development and demonstrate that differentiation of Sertoli cells may take place quite independently of the testicular cord formation.

Published
1984
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12. Anti-Müllerian hormone and freemartinism : inhibition of germ cell development and induction of seminiferous cord-like structures in rat fetal ovaries exposed in vitro to purified bovine AMH (1)

Author

VIGIER, B., Watrin, F., Magre, S., Tran, D., GARRIGOU, O., G. FOREST, M., JOSSO, N., and Revues Inra, Import

Subjects
[SDV.AEN] Life Sciences [q-bio]/Food and Nutrition, [SDV.BDD] Life Sciences [q-bio]/Development Biology, [SDV.BDLR]Life Sciences [q-bio]/Reproductive Biology, [SDV.AEN]Life Sciences [q-bio]/Food and Nutrition, [SDV.BDD]Life Sciences [q-bio]/Development Biology, [SDV.BDLR] Life Sciences [q-bio]/Reproductive Biology, ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
1988

15. OVEX1, a novel chicken endogenous retrovirus with sex-specific and left-right asymmetrical expression in gonads

Author

Magre Solange, Coudouel Noëlline, and Carré-Eusèbe Danièle

Subjects
Immunologic diseases. Allergy, RC581-607
Abstract

Abstract Background In chickens, as in most birds, female gonad morphogenesis is asymmetrical. Gonads appear first rather similarly, but only the left one undergoes full differentiation and gives rise to a functional ovary. The right gonad, in which the cortex does not develop, remains restricted to the medulla and finally regresses. Opportunity was taken of this left-right asymmetry to perform a suppression subtractive hybridization screening to select for transcripts preferentially expressed in the developing left ovary as compared to the right one, and thus identify genes that are potentially involved in the process of ovarian differentiation. Results One of these transcripts, named Ovex1 according to its expression profile, corresponds to an endogenous retrovirus that has not been previously characterized. It is transcribed as full-length and singly spliced mRNAs and contains three uninterrupted open reading frames coding potentially for proteins with homology to Gag and Pro-Pol retroviral polyproteins and a third protein showing only a weak similarity with Env glycoproteins. Ovex1 is severely degenerated; it is devoid of typical long terminal repeats and displays some evidence of recombination. An orthologous Ovex1 locus was identified in the genome of zebra finch, a member of a different bird order, and similar sequences were detected in turkey, guinea fowl, and duck DNA. The relationship between these sequences follows the bird phylogeny, suggesting vertical transmission of the endogenous retrovirus for more than 100 million years. Ovex1 is transcribed in chicken gonads with a sex-dependent and left-right asymmetrical pattern. It is first expressed in the cortex of the left indifferent gonads of both sexes. Expression is transient in the left testis and absent in the right one. In developing ovaries, Ovex1 transcription increases sharply in the left cortex and is weakly detected in the medulla. After folliculogenesis, Ovex1-expressing cells constitute the follicular granulosa cell layer. Ovex1 expression highlights a striking desquamation process that leads to profound cortical remodeling associated with follicle morphogenesis. Conclusion Evidence for a selection pressure at the protein level suggests that this endogenous retrovirus, expressed in the ovarian supporting cell lineage, might play an active role in bird ovarian physiology.

Published
2009
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16. Age-dependent vulnerability of the ovary to AhR-mediated TCDD action before puberty: Evidence from mouse models.

Author

Devillers MM, Petit F, Giton F, François CM, Juricek L, Coumoul X, Magre S, Cohen-Tannoudji J, and Guigon CJ

Subjects
Animals, Cytochrome P-450 CYP1A1 metabolism, Endocrine Disruptors metabolism, Estradiol metabolism, Estrogens pharmacology, Female, Granulosa Cells drug effects, Ligands, Mice, Mice, Inbred C57BL, Ovary drug effects, Polychlorinated Dibenzodioxins metabolism, Sexual Maturation drug effects, Signal Transduction drug effects, Ovary physiology, Polychlorinated Dibenzodioxins toxicity, Receptors, Aryl Hydrocarbon metabolism
Abstract

In female mammals, puberty and fertility are regulated by the synthesis of estradiol (E2) by the ovaries at the infantile stage and at the approach of puberty, a process which may be affected by endocrine disrupting chemicals (EDC)s acting through the Aryl hydrocarbon receptor (AhR). However, there is no information on AhR-mediated regulation of ovarian estrogenic activity during these developmental periods. Here, we assessed in mouse models, the intrinsic and exogenous ligand-induced AhR action on E2 synthesis at the infantile stage (14 days postnatal (dpn)) and at the approach of puberty (28 dpn). Intrinsic AhR pathway became activated in the ovary at the approach of puberty, as suggested by the decreased intra-ovarian expression in prototypical and steroidogenesis-related AhR targets and E2 contents in Ahr knockout (Ahr -/- ) mice versus Ahr +/+ mice exclusively at 28 dpn. Accordingly, AhR nuclear localization in granulosa cells, reflecting its activity in cells responsible for E2 synthesis, was much lower at 14 dpn than at 28 dpn in C57BL/6 mice. However, AhR signaling could be activated by exogenous ligands at both ages, as revealed by FICZ- and TCDD-induced Ahrr and Cyp1a1 expression in C57BL/6 mice. Nevertheless, TCDD impacted ovarian estrogenic activity only at 28 dpn. This age-related AhR action may be ligand-dependent, since FICZ had no effect on E2 synthesis at 28 dpn. In conclusion, AhR would not regulate ovarian estrogenic activity before the approach of puberty. Its activation by EDCs may be more detrimental to reproductive health at this stage than during infancy., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published
2020
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17. A novel action of follicle-stimulating hormone in the ovary promotes estradiol production without inducing excessive follicular growth before puberty.

Author

François CM, Petit F, Giton F, Gougeon A, Ravel C, Magre S, Cohen-Tannoudji J, and Guigon CJ

Subjects
Animals, Animals, Newborn, Aromatase metabolism, Cyclin D2 metabolism, Female, Gonadotropins pharmacology, Granulosa Cells drug effects, Granulosa Cells metabolism, Humans, Infant, Luteinizing Hormone metabolism, Mice, Inbred C57BL, Models, Biological, Ovarian Follicle drug effects, Ovarian Follicle metabolism, Receptors, LH metabolism, Signal Transduction drug effects, Steroids biosynthesis, Estradiol biosynthesis, Follicle Stimulating Hormone pharmacology, Ovarian Follicle growth & development, Sexual Maturation drug effects
Abstract

In cyclic females, FSH stimulates ovarian estradiol (E2) production and follicular growth up to the terminal stage. A transient elevation in circulating FSH and E2 levels occurs shortly after birth. But what could be the action of FSH on the ovary during this period, and in particular how it stimulates ovarian steroidogenesis without supporting terminal follicular maturation is intriguing. By experimentally manipulating FSH levels, we demonstrate in mice that the mid-infantile elevation in FSH is mandatory for E2 production by the immature ovary, but that it does not stimulate follicle growth. Importantly, FSH increases aromatase expression to stimulate E2 synthesis, however it becomes unable to induce cyclin D2, a major driver of granulosa cell proliferation. Besides, although FSH prematurely induces luteinizing hormone (LH) receptor expression in granulosa cells, LH pathway is not functional in these cells to induce their terminal differentiation. In line with these results, supplying infantile mice with a superovulation regimen exacerbates E2 production, but it does not stimulate the growth of follicles and it does not induce ovulation. Overall, our findings unveil a regulation whereby high postnatal FSH concentrations ensure the supply of E2 required for programming adult reproductive function without inducing follicular maturation before puberty.

Published
2017
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18. Rat Gnrhr promoter directs species-specific gene expression in the pituitary and testes of transgenic mice.

Author

Ishaq M, Schang AL, Magre S, Laverrière JN, Guillou A, Coudouel N, Wargnier R, Cohen-Tannoudji J, and Counis R

Subjects
Animals, Leydig Cells metabolism, Male, Mice, Mice, Transgenic, Promoter Regions, Genetic genetics, Rats, Rats, Transgenic, Receptors, LHRH genetics, Pituitary Gland metabolism, Receptors, LHRH metabolism, Testis metabolism
Abstract

The GnRH receptor (GnRHR) is expressed in several non-pituitary tissues, notably in gonads. However, mechanisms underlying the gonad-specific expression of Gnrhr are not well understood. Here, Gnrhr expression was analysed in the developing testes and pituitaries of rats and transgenic mice bearing the human placental alkaline phosphatase reporter gene (ALPP) under the control of the rat Gnrhr promoter. We showed that the 3.3 kb, but not the pituitary-specific 1.1 kb promoter, directs ALPP expression exclusively to testis Leydig cells from embryonic day 12 onwards. Real-time PCR analysis revealed that promoter activity displayed the same biphasic profile as marker genes in Leydig cells, i.e. abrupt declines after birth followed by progressive rises after a latency phase, in coherence with the differentiation and evolution of foetal and adult Leydig cell lineages. Interestingly, the developmental profile of transgene expression showed high similarity with the endogenous Gnrhr profile in the rat testis, while mouse Gnrhr was only poorly expressed in the mouse testis. In the pituitary, both transgene and Gnrhr were co-expressed at measurable levels with similar ontogenetic profiles, which were markedly distinct from those in the testis. Castration that induced pituitary Gnrhr up-regulation in rats did not affect the mouse Gnrhr. However, it duly up-regulated the transgene. In addition, in LβT2 cells, the rat, but not mouse, Gnrhr promoter was sensitive to GnRH agonist stimulation. Collectively, our data highlight inter-species variations in the expression and regulation of Gnrhr in two different organs and reveal that the rat promoter sequence contains relevant genetic information that dictates rat-specific gene expression in the mouse context.

Published
2013
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19. Gender differences in transcriptional signature of developing rat testes and ovaries following embryonic exposure to 2,3,7,8-TCDD.

Author

Magre S, Rebourcet D, Ishaq M, Wargnier R, Debard C, Meugnier E, Vidal H, Cohen-Tannoudji J, and Le Magueresse-Battistoni B

Subjects
Animals, Animals, Newborn, Chemokines genetics, Chemokines metabolism, Crosses, Genetic, Embryo, Mammalian drug effects, Female, Gene Expression Regulation, Developmental drug effects, Liver drug effects, Liver metabolism, Male, Oligonucleotide Array Sequence Analysis, Ovary drug effects, Ovary metabolism, Pituitary Gland drug effects, Pituitary Gland metabolism, Pregnancy, Promoter Regions, Genetic genetics, Rats, Rats, Sprague-Dawley, Reproduction drug effects, Reproduction genetics, Software, Testis drug effects, Testis metabolism, Transcription Factors metabolism, Transcription, Genetic drug effects, Embryo, Mammalian metabolism, Gene Expression Profiling, Ovary growth & development, Polychlorinated Dibenzodioxins toxicity, Prenatal Exposure Delayed Effects genetics, Sex Characteristics, Testis growth & development
Abstract

Dioxins are persistent organic pollutants interfering with endocrine systems and causing reproductive and developmental disorders. The objective of our project was to determine the impact of an in utero exposure to 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) on reproductive function of male and female offspring in the rat with a special emphasis on the immature period. We used a low dose of TCDD (unique exposure by oral gavage of 200 ng/kg at 15.5 days of gestation) in order to mirror a response to an environmental dose of TCDD not altering fertility of the progeny. We choose a global gene expression approach using Affymetrix microarray analysis, and testes of 5 days and ovaries of 14 days of age. Less than 1% of the expressed genes in gonads were altered following embryonic TCDD exposure; specifically, 113 genes in ovaries and 56 in testes with 7 genes common to both sex gonads. It included the repressor of the aryl hydrocarbon receptor (Ahrr), the chemokines Ccl5 and Cxcl4 previously shown to be regulated by dioxin in testis, Pgds2/Hpgds and 3 others uncharacterized. To validate and extend the microarray data we realized real-time PCR on gonads at various developmental periods of interest (from 3 to 25 days for ovaries, from 5 to the adult age for testes). Overall, our results evidenced that both sex gonads responded differently to TCDD exposure. For example, we observed induction of the canonic battery of TCDD-induced genes coding enzymes of the detoxifying machinery in ovaries aged of 3-14 days of age (except Cyp1a1 induced at 3-10 days) but not in testes of 5 days (except Ahrr). We also illustrated that inflammatory pathway is one pathway activated by TCDD in gonads. Finally, we identified several new genes targeted by TCDD including Fgf13 in testis and one gene, Ptgds2/Hpgds regulated in the two sex gonads.

Published
2012
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20. GnRH receptor gene expression in the developing rat hippocampus: transcriptional regulation and potential roles in neuronal plasticity.

Author

Schang AL, Ngô-Muller V, Bleux C, Granger A, Chenut MC, Loudes C, Magre S, Counis R, Cohen-Tannoudji J, and Laverrière JN

Subjects
Alkaline Phosphatase metabolism, Animals, Cells, Cultured, Early Growth Response Protein 1 genetics, Early Growth Response Protein 1 metabolism, Gene Expression Regulation, Developmental genetics, Gene Expression Regulation, Developmental physiology, Humans, Immunohistochemistry, Microfilament Proteins genetics, Microfilament Proteins metabolism, Nerve Tissue Proteins genetics, Nerve Tissue Proteins metabolism, Neuronal Plasticity genetics, Promoter Regions, Genetic genetics, Rats, Receptors, LHRH genetics, Reverse Transcriptase Polymerase Chain Reaction, Synaptophysin genetics, Synaptophysin metabolism, Hippocampus metabolism, Neuronal Plasticity physiology, Receptors, LHRH metabolism
Abstract

In the pituitary of mammals, the GnRH receptor (GnRHR) plays a primary role in the control of reproductive function. It is further expressed in the hippocampus, where its function, however, is not well defined. By quantitative RT-PCR analyses, we demonstrate herein that the onset of GnRHR gene (Gnrhr) expression in the rat hippocampus was unexpectedly delayed as compared to the pituitary and only occurred after birth. Using a previously described transgenic mouse model bearing the human placental alkaline phosphatase reporter gene under the control of the rat Gnrhr promoter, we established a positive correlation between the temporal pattern of Gnrhr mRNA levels and promoter activity in the hippocampal formation. The gradual appearance of human placental alkaline phosphatase transgene expression occurred simultaneously in the hippocampus and interconnected structures such as the lateral septum and the amygdala, coinciding with the establishment of hippocampo-septal projections. Analysis of transcription factors together with transient transfection assays in hippocampal neurons indicated that the combinatorial code governing the hippocampus-specific expression of the Gnrhr is distinct from the pituitary, likely involving transactivating factors such as NUR77, cyclic AMP response element binding protein, and Finkel-Biskis-Jinkins murine osteosarcoma virus oncogene homolog. A silencing transcription factor acting via the -3255/-1135 promoter region of the Gnrhr may be responsible for the transcriptional repression observed around birth. Finally, GnRH directly stimulated via activation of its receptor the expression of several marker genes of neuronal plasticity such as Egr1, synaptophysin, and spinophilin in hippocampal primary cultures, suggesting a role for GnRHR in neuronal plasticity. Further characterization of these mechanisms may help unravel important functions of GnRH/GnRHR signaling in the brain.

Published
2011
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21. OVEX1, a novel chicken endogenous retrovirus with sex-specific and left-right asymmetrical expression in gonads.

Author

Carré-Eusèbe D, Coudouel N, and Magre S

Subjects
Animals, Chickens, Cluster Analysis, Female, Gene Expression Profiling methods, Male, Molecular Sequence Data, Nucleic Acid Hybridization methods, Open Reading Frames, Phylogeny, RNA, Messenger genetics, RNA, Messenger isolation & purification, RNA, Viral genetics, RNA, Viral isolation & purification, Sequence Analysis, DNA, Sequence Homology, Testis physiology, Testis virology, Viral Proteins genetics, Endogenous Retroviruses genetics, Endogenous Retroviruses isolation & purification, Ovary physiology, Ovary virology
Abstract

Background: In chickens, as in most birds, female gonad morphogenesis is asymmetrical. Gonads appear first rather similarly, but only the left one undergoes full differentiation and gives rise to a functional ovary. The right gonad, in which the cortex does not develop, remains restricted to the medulla and finally regresses. Opportunity was taken of this left-right asymmetry to perform a suppression subtractive hybridization screening to select for transcripts preferentially expressed in the developing left ovary as compared to the right one, and thus identify genes that are potentially involved in the process of ovarian differentiation., Results: One of these transcripts, named Ovex1 according to its expression profile, corresponds to an endogenous retrovirus that has not been previously characterized. It is transcribed as full-length and singly spliced mRNAs and contains three uninterrupted open reading frames coding potentially for proteins with homology to Gag and Pro-Pol retroviral polyproteins and a third protein showing only a weak similarity with Env glycoproteins. Ovex1 is severely degenerated; it is devoid of typical long terminal repeats and displays some evidence of recombination. An orthologous Ovex1 locus was identified in the genome of zebra finch, a member of a different bird order, and similar sequences were detected in turkey, guinea fowl, and duck DNA. The relationship between these sequences follows the bird phylogeny, suggesting vertical transmission of the endogenous retrovirus for more than 100 million years. Ovex1 is transcribed in chicken gonads with a sex-dependent and left-right asymmetrical pattern. It is first expressed in the cortex of the left indifferent gonads of both sexes. Expression is transient in the left testis and absent in the right one. In developing ovaries, Ovex1 transcription increases sharply in the left cortex and is weakly detected in the medulla. After folliculogenesis, Ovex1-expressing cells constitute the follicular granulosa cell layer. Ovex1 expression highlights a striking desquamation process that leads to profound cortical remodeling associated with follicle morphogenesis., Conclusion: Evidence for a selection pressure at the protein level suggests that this endogenous retrovirus, expressed in the ovarian supporting cell lineage, might play an active role in bird ovarian physiology.

Published
2009
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22. The GnRH receptor and the response of gonadotrope cells to GnRH pulse frequency code. A story of an atypical adaptation of cell function relying on a lack of receptor homologous desensitization.

Author

Counis R, Garrel G, Laverriere JN, Simon V, Bleux C, Magre S, and Cohen-Tannoudji J

Subjects
Animals, Follicle Stimulating Hormone, Gene Expression Regulation, Gonadotropin-Releasing Hormone metabolism, Pituitary Gland metabolism, Luteinizing Hormone, Receptors, LHRH
Abstract

Brain control of the reproductive system is mediated through hypothalamic gonadotropin-releasing hormone (GnRH) which activates specific receptors (GnRHR) present at the surface of the pituitary gonadotropes to trigger secretion of the two gonadotropins LH and FSH. A unique feature of this system is the high dependence on the secretion mode of GnRH, which is basically pulsatile but undergoes considerable fluctuations in pulse frequency pattern in response to endogenous or external factors. How the physiological fluctuations of GnRH secretion that orchestrate normal reproduction are decoded by the gonadotrope cell machinery to ultimately control gonadotropin release and/or subunit gene transcription has been the subject of intensive studies during the past decades. Surprisingly, the mammalian GnRHR is unique among G protein-coupled receptor family as it lacks the carboxy-terminal tail usually involved in classical endocytotic process. Accordingly, it does not desensitize properly and internalizes very poorly. Both this atypical intrinsic property and post-receptor events may thus contribute to decode the GnRH signal. This includes the participation of a network of signaling pathways that differently respond to GnRH together with a growing amount of genes differentially sensitive to pulse frequency. Among these are two pairs of genes, the transcription factors EGR-1 and NAB, and the regulatory factors activin and follistatin, that function as intracellular autoregulatory feedback loops controlling respectively LHbeta and FSHbeta gene expression and hence, LH and FSH synthesis. Pituitary gonadotropes thus represent a unique model of cells functionally adapted to respond to a considerably fluctuating neuroendocrine stimulation, from short individual pulses to sustained GnRH as observed at the proestrus of ovarian cycle. Altogether, the data emphasize the adaptative reciprocal complementarity of hypothalamic GnRH neurones and pituitary gonadotropes to function as an original unit.

Published
2009
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23. Consequences of fetal irradiation on follicle histogenesis and early follicle development in rat ovaries.

Author

Mazaud Guittot S, Guigon CJ, Coudouel N, and Magre S

Subjects
Animals, Cell Differentiation, Female, Germ Cells metabolism, Granulosa Cells cytology, Granulosa Cells metabolism, Immunohistochemistry, In Situ Hybridization, Male, Oocytes growth & development, Ovarian Follicle metabolism, Ovarian Follicle radiation effects, Rats, Rats, Sprague-Dawley, Fetal Development radiation effects, Germ Cells cytology, Ovarian Follicle growth & development
Abstract

Follicle histogenesis, in which follicles arise from fragmenting ovigerous cords, is a poorly understood mechanism that is strictly dependent upon the presence of germ cells. Our previous studies have shown that severely germ cell-depleted rat ovaries after fetal gamma-irradiation display modifications of follicular endowment and dynamics during the immature period. The primordial follicle stock was absent and the follicles with primary appearance remained quiescent longer than in control ovaries during the neonatal period. The aim of the present work was to analyze the initial steps of follicle histogenesis, and to investigate the etiology of the alterations observed in the development of irradiated ovaries. Just after birth, we observed, in addition to sterile ovigerous cords, the emergence of the first follicles which exhibited several abnormal features as compared to those of control ovaries. Most of the follicles appeared as primary follicles, as they were composed of a layer of cuboidal-shaped granulosa cells surrounding an enlarged oocyte. Interestingly, the granulosa cells of these primary-like follicles did not proliferate and did not express the genes for anti-Müllerian hormone (Amh) or bone morphogenetic protein receptor type II (Bmpr2), both of which are normally expressed from the primary stage onwards. In contrast, the oocytes strongly expressed the gene for growth and differentiation factor 9 (Gdf9), which is normally upregulated from the primary follicle stage onwards, which suggests an uncoupling of granulosa cell development from oocyte development. In addition, irradiated ovaries displayed a higher frequency of follicles that contained 2 or 3 oocytes, which are also referred to as multi-oocyte follicles (MOFs). Examination at the time of follicle histogenesis indicated that MOFs arise from incomplete ovigerous cord breakdown. Taken together, the results of this study indicate that severe perturbations of follicular histogenesis take place following irradiation and massive germ cell depletion during fetal life. In addition to the classically described sterile cords, we have pointed out the differentiation of MOFs and primary-like quiescent follicles, which finally evolve into growing follicles and participate in ovarian function. We propose that these phenotypes are closely correlated to the proportion of granulosa cells to oocytes at the time of neonatal follicle histogenesis.

Published
2006
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24. Contribution of germ cells to the differentiation and maturation of the ovary: insights from models of germ cell depletion.

Author

Guigon CJ and Magre S

Subjects
Animals, Cell Differentiation physiology, Female, Humans, Cell Communication physiology, Oocytes physiology, Ovarian Follicle cytology, Ovarian Follicle growth & development
Abstract

In mammals, the role played by germ cells in ovarian differentiation and folliculogenesis has been the focus of an increasing number of studies over the last decades. From these studies, it has emerged that bidirectional communication between germ cells and surrounding companion cells is required as soon as the initial assembly of follicles. Models of germ cell depletion that arise from both spontaneous and experimentally induced mutations as well as irradiation or chemical treatments have been helpful in deciphering the role played by germ cells from the onset of ovarian differentiation onward. This review reports current knowledge and proposes novel hypotheses that can be formulated from these models about the contribution of germ cells to ovarian differentiation and folliculogenesis. In particular, it promotes the idea that the influence of germ cells on companion somatic cells varies within both ovarian differentiation and folliculogenesis.

Published
2006
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25. Follicular cells acquire sertoli cell characteristics after oocyte loss.

Author

Guigon CJ, Coudouel N, Mazaud-Guittot S, Forest MG, and Magre S

Subjects
Animals, Anti-Mullerian Hormone, Biomarkers metabolism, Cell Differentiation physiology, Cell Survival physiology, DNA-Binding Proteins metabolism, Female, Follicle Stimulating Hormone blood, Gamma Rays, Glycoproteins metabolism, Granulosa Cells physiology, Inhibins metabolism, Male, Oocytes radiation effects, Ovarian Follicle metabolism, Ovarian Follicle physiology, Phenotype, Rats, Sertoli Cells physiology, Testicular Hormones metabolism, Transcription Factors metabolism, Oocytes cytology, Ovarian Follicle cytology, Sertoli Cells cytology
Abstract

Although it has been suggested that in mammals the loss of female germ cells may induce the masculinization of the ovarian compartment, there has been as yet no conclusive demonstration. To directly address that question, the present study has been designed to determine the fate of follicular cells after oocyte loss. Using gamma-irradiation to selectively deplete oocytes in nongrowing follicles in female rats, we show that follicular cells in oocyte-depleted follicles survive, proliferate, and subsequently acquire morphological characteristics of Sertoli cells: elongated cytoplasm, basal location of the nucleus, and specific Sertoli cell junctions, the ectoplasmic specializations. These Sertoli-like cells express, however, the female-specific marker FOXL2 (Forkhead L2) but not the male sex-specific marker SOX-9 (Sry-type high-mobility-group box transcription factor-9) underlying the maintenance of molecular characteristics of granulosa cells. Before transdifferentiating into Sertoli-like cells, follicular cells of oocyte-depleted follicles initiate the expression of anti-Mullerian hormone and inhibin alpha-subunit that are typically synthesized by granulosa cells from the onset of follicular growth. Experimental modifications of the endocrine balance of the irradiated females show that there is a close relationship between plasma FSH levels and the occurrence of Sertoli-like cells. In addition to providing experimental evidence for the crucial role of the oocyte in granulosa cell phenotype maintenance, these results emphasize that the transdifferentiation of granulosa cells into Sertoli cells occurs in a multistep fashion, requiring the maturation of granulosa cells and depending on the endocrine milieu.

Published
2005
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26. Gonadotropin-releasing hormone and the control of gonadotrope function.

Author

Counis R, Laverrière JN, Garrel G, Bleux C, Cohen-Tannoudji J, Lerrant Y, Kottler ML, and Magre S

Subjects
Animals, Female, Gene Expression Regulation, Gonadotropin-Releasing Hormone metabolism, Gonadotropins, Pituitary metabolism, Male, Pituitary Gland physiology, Receptors, LHRH physiology, Gonadotropin-Releasing Hormone physiology, Gonadotropins, Pituitary physiology, Pituitary Gland metabolism, Receptors, LHRH metabolism, Signal Transduction physiology
Abstract

Normal gametogenesis and steroidogenesis is highly dependent on the pulsatile release of hypothalamic GnRH that binds high-affinity receptors present at the surface of pituitary gonadotrophs thereby triggering the synthesis and release of the gonadotropins LH and FSH. The mammalian GnRH receptor displays the classical heptahelical structure of G protein-coupled receptors with, however, a unique feature, the lack of a C-terminal tail. Accordingly, it does not desensitise sensu stricto, and internalises very poorly. It is now well established that GnRH stimulation induces the activation of a complex network of transduction pathways involved in the control of gonadotropin release and subunit gene expression. Other authors and ourselves have demonstrated that the GnRH action is associated with an increased complexity regarding gene regulation/cell function. Indeed GnRH affects the GnRH receptor gene itself and a number of additional genes that include some involved in cell signalling and auto-/paracrine regulation. The fact that GnRH regulates the expression of its own receptor, together with a host of other genes typically involved in its signal transduction cascades implies alteration/auto-adaptation in gonadotropic responsiveness. Furthermore, some of these genes respond differentially depending on whether the GnRH stimulation is intermittent or permanent suggesting specific roles in the dual process of activation/desensitisation. Thus, it can be assumed that the importance of pulsatility of GnRH action is closely related to, or dependent on, the inability of the GnRH receptor to desensitise. Moreover, multiple post-receptor events are crucial for both the regulation/plasticity of gonadotropic function and the maintenance of cell integrity.

Published
2005
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27. Basal membrane remodeling during follicle histogenesis in the rat ovary: contribution of proteinases of the MMP and PA families.

Author

Mazaud S, Guyot R, Guigon CJ, Coudouel N, Le Magueresse-Battistoni B, and Magre S

Subjects
Animals, Basement Membrane embryology, Female, Fluorescent Antibody Technique, In Situ Hybridization, In Situ Nick-End Labeling, Laminin metabolism, Matrix Metalloproteinase 2 metabolism, Microscopy, Electron, Ovarian Follicle enzymology, Ovarian Follicle ultrastructure, Gene Expression Regulation, Developmental, Matrix Metalloproteinase 1 metabolism, Morphogenesis, Ovarian Follicle embryology, Plasminogen Activators metabolism, Rats embryology
Abstract

In mammalian females, follicular units arise from the fragmentation of ovigerous cords, which spread over the first three postnatal days in the rat. The mechanisms underlying such a process of epithelial remodeling involve a specific balance between basal membrane (BM) deposition and degradation that has as yet not been precisely described. We have investigated the contribution of proteases in BM remodeling by localization of transcripts, protein, or enzymatic activity. In addition, we have analyzed BM deposition at the ultrastructural level and by immunofluorescence detection of BM components. At birth, when fragmentation occurred, epithelial cells displayed an upregulation of membrane type 1-matrix metalloproteinase (MT1-MMP) and urokinase-type plasminogen activator (uPA), as well as laminin alpha1 mRNAs. Although MMP2 expression was restricted to mesenchymal cells throughout development, in situ zymography showed that gelatinase-MMP2 activity colocalized with BM deposition inside deepening clefts in the areas of ovigerous cord fragmentation. In the days following birth, gelatin and plasminogen-casein zymography showed an increased enzymatic activity of MMP2 and uPA, respectively. In organotypic cultures of 21-day postconception ovaries, serine protease inhibitors like aprotinin could efficiently block follicle histogenesis. In addition, our results show that the well described and great wave of oocyte attrition characteristic of the days following birth closely correlates with BM remodeling. Altogether, our data show that during follicle histogenesis, ovigerous cord fragmentation results from an acute BM component deposition in deepening clefts and that BM homeostasy involves proteinases of the MMP2/MT1-MMP/TIMP3 and plasminogen/uPA families.

Published
2005
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28. Reduced sensitivity to human serum inactivation of enveloped viruses produced by pig cells transgenic for human CD55 or deficient for the galactosyl-alpha(1-3) galactosyl epitope.

Author

Magre S, Takeuchi Y, Langford G, Richards A, Patience C, and Weiss R

Subjects
Animals, Endothelial Cells virology, Humans, Swine, CD55 Antigens physiology, Complement System Proteins immunology, Disaccharides physiology, Endogenous Retroviruses immunology, Leukemia Virus, Murine immunology, Vesicular stomatitis Indiana virus immunology
Abstract

Complement activation mediated by the major xenogeneic epitope in the pig, galactosyl-alpha(1-3) galactosyl sugar structure (alpha-Gal), and human natural antibodies could cause hyperacute rejection (HAR) in pig-to-human xenotransplantation. The same reaction on viruses bearing alpha-Gal may serve as a barrier to zoonotic infection. Expressing human complement regulatory proteins or knocking out alpha-Gal epitopes in pig in order to overcome HAR may therefore pose an increased risk in xenotransplantation with regard to zoonosis. We investigated whether amphotropic murine leukemia virus, porcine endogenous retrovirus, and vesicular stomatitis virus (VSV) budding from primary transgenic pig aortic endothelial (TgPAE) cells expressing human CD55 (hCD55 or hDAF) was protected from human-complement-mediated inactivation. VSV propagated through the ST-IOWA pig cell line, in which alpha-galactosyl-transferase genes were disrupted (Gal null), was also tested for sensitivity to human complement. The TgPAE cells were positive for hCD55, and all pig cells except the Gal-null ST-IOWA expressed alpha-Gal epitopes. Through antibody binding, we were able to demonstrate the incorporation of hCD55 onto VSV particles. Viruses harvested from TgPAE cells were relatively resistant to complement-mediated inactivation by the three sources of human sera tested. Additionally, VSV from Gal-null pig cells was resistant to human complement inactivation. Such protection of enveloped viruses may increase the risk of zoonosis from pigs genetically modified for pig-to-human xenotransplantation.

Published
2004
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29. The promoter of the rat gonadotropin-releasing hormone receptor gene directs the expression of the human placental alkaline phosphatase reporter gene in gonadotrope cells in the anterior pituitary gland as well as in multiple extrapituitary tissues.

Author

Granger A, Ngô-Muller V, Bleux C, Guigon C, Pincas H, Magre S, Daegelen D, Tixier-Vidal A, Counis R, and Laverrière JN

Subjects
Animals, Brain Chemistry, Female, Follicle Stimulating Hormone, beta Subunit genetics, Gene Deletion, Gene Expression, Gene Expression Regulation, Histocytochemistry, Humans, Luteinizing Hormone, beta Subunit genetics, Male, Mice, Mice, Transgenic, Pituitary Gland, Anterior embryology, Pituitary Gland, Anterior growth & development, Pregnancy, Rats, Recombinant Fusion Proteins, Regulatory Sequences, Nucleic Acid, Alkaline Phosphatase genetics, Genes, Reporter genetics, Gonadotropin-Releasing Hormone genetics, Pituitary Gland, Anterior enzymology, Placenta enzymology, Promoter Regions, Genetic genetics
Abstract

Previous studies dealing with the mechanisms underlying the tissue-specific and regulated expression of the GnRH receptor (GnRH-R) gene led us to define several cis-acting regulatory sequences in the rat GnRH-R gene promoter. These include functional sites for steroidogenic factor 1, activator protein 1, and motifs related to GATA and LIM homeodomain response elements as demonstrated primarily in transient transfection assays in mouse gonadotrope-derived cell lines. To understand these mechanisms in more depth, we generated transgenic mice bearing the 3.3-kb rat GnRH-R promoter linked to the human placental alkaline phosphatase reporter gene. Here we show that the rat GnRH-R promoter drives the expression of the reporter gene in pituitary cells expressing the LHbeta and/or FSHbeta subunit but not in TSHbeta- or GH-positive cells. Furthermore, the spatial and temporal pattern of the transgene expression during the development of the pituitary was compatible with that characterizing the emergence of the gonadotrope lineage. In particular, transgene expression is colocalized with the expression of the glycoprotein hormone alpha-subunit at embryonic day 13.5 and with that of steroidogenic factor 1 at later stages of pituitary development. Transgene expression was also found in specific brain areas, such as the lateral septum and the hippocampus. A single promoter is thus capable of directing transcription in highly diverse tissues, raising the question of the different combinations of transcription factors that lead to such a multiple, but nevertheless cell-specific, expressions of the GnRH-R gene.

Published
2004
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30. Unaltered development of the initial follicular waves and normal pubertal onset in female rats after neonatal deletion of the follicular reserve.

Author

Guigon CJ, Mazaud S, Forest MG, Brailly-Tabard S, Coudouel N, and Magre S

Subjects
Animals, Aromatase genetics, Blotting, Southern, Cell Count, DNA Fragmentation, Estradiol blood, Female, Follicular Atresia, Gamma Rays, In Situ Hybridization, In Situ Nick-End Labeling, Infertility, Female etiology, Inhibins blood, Inhibins genetics, Oocytes, Ovarian Follicle chemistry, Proliferating Cell Nuclear Antigen analysis, RNA, Messenger analysis, Rats, Rats, Sprague-Dawley, Receptors, LH genetics, Animals, Newborn, Ovarian Follicle growth & development, Ovarian Follicle radiation effects, Sexual Maturation
Abstract

In rats, the pool of primordial follicles is established within the first 3 d postnatally (dpn). Immediately after their differentiation, a subset of follicles begins to grow and constitutes the initial follicular waves. In this study we investigated the development of these early growing follicles after deletion of the primordial follicle pool induced by 1.5 Gy gamma-irradiation at 5 dpn. Within only 24 h, i.e. at 6 dpn, 99% of the primordial follicles disappeared, whereas most of the growing follicles remained unaffected. The study of these surviving follicles throughout the immature period has shown that their subsequent growth proceeded normally, as assessed by proliferating cell nuclear antigen immunostaining and follicular counts. No modification in the process of follicular atresia, studied by terminal deoxynucleotidyltransferase-mediated deoxy-UTP-fluorescein nick end labeling and Southern blot of DNA fragmentation analysis, was observed. Complementary analysis, by either in situ hybridization for inhibin subunits, P450 aromatase, and LH receptor mRNAs or plasma dosages of 17beta-estradiol and inhibin B, further showed that follicular maturation was unaltered. In line with these observations, pubertal onset was normal, regarding both age and ovulation rate. Nevertheless, as a consequence of the nonrenewal of the growing pool, the follicular complement was practically exhausted at puberty, and 90% of the females evidenced sterility by 4 months. Altogether, our results demonstrate that the deletion of the primordial follicle pool has induced no modification in the growth pattern of the early growing follicles that develop as their counterparts in control ovaries. Within the immature period, the initial follicular waves ensure the ovarian functionality and thus play a key role in the initiation of reproductive life.

Published
2003
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31. Establishment of the reproductive function and transient fertility of female rats lacking primordial follicle stock after fetal gamma-irradiation.

Author

Mazaud S, Guigon CJ, Lozach A, Coudouel N, Forest MG, Coffigny H, and Magre S

Subjects
Animals, Animals, Newborn, Cell Differentiation, Estradiol blood, Female, Follicle Stimulating Hormone blood, Follicular Atresia, Kidney growth & development, Organ Size, Ovarian Follicle physiology, Ovary chemistry, Ovary growth & development, Pituitary Gland growth & development, Primary Ovarian Insufficiency, Proliferating Cell Nuclear Antigen analysis, Rats, Rats, Sprague-Dawley, Sexual Maturation, Uterus growth & development, Weight Gain, Fertility, Gamma Rays, Ovarian Follicle embryology, Ovarian Follicle radiation effects, Reproduction physiology
Abstract

In mammals, the primordial follicle stock is not renewable, and its size, therefore, limits the reproductive life span of the female. In this study we have investigated the morphological and functional differentiation of dysgenesic ovaries in female rats exposed in utero to 1.5 Gy gamma-irradiation. As a consequence of the severe depletion in oocytes, females evidenced premature ovarian failure from 6 months on. Nevertheless, puberty onset and fertility at the beginning of reproductive life were similar to those of controls. The differentiation and evolution of the entire follicular population were followed during the immature period, using follicle counts, in situ hybridization of follicular maturation markers, and analysis of atresia. Primordial follicles were much more affected by irradiation (1.4-1.9% of controls) than growing follicles (30-45% of controls). As the very low number of primordial follicles remained constant throughout this period, it may be considered that the growing follicle pool plays the role of follicular reserve, permitting the transient normal fertility of irradiated females. Within the neonatal period, primary and secondary follicles, as revealed by proliferating cell nuclear antigen immunostaining, remain quiescent longer in irradiated than in control ovaries. Consequently, the majority of the most mature follicles (i.e. the first follicular wave) characterized by a high expression of aromatase transcripts during the infantile period, are missing in irradiated ovaries. Concomitantly, the 17beta-estradiol plasma peak is absent, and plasma FSH levels are higher than those in control females. In conclusion, these observations emphasize that the female reproductive life span depends not merely on the size of the primordial follicle stock, but also on the entire follicle complement as well as follicular dynamics during the immature period.

Published
2002
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32. Susceptibility of the porcine endogenous retrovirus to reverse transcriptase and protease inhibitors.

Author

Qari SH, Magre S, García-Lerma JG, Hussain AI, Takeuchi Y, Patience C, Weiss RA, and Heneine W

Subjects
Amino Acid Sequence, Animals, Drug Resistance, Microbial, Drug Resistance, Multiple, Endogenous Retroviruses enzymology, Endogenous Retroviruses physiology, Endopeptidases metabolism, HIV Reverse Transcriptase genetics, HIV-1 drug effects, HIV-1 enzymology, Humans, Microbial Sensitivity Tests methods, Molecular Sequence Data, RNA-Directed DNA Polymerase chemistry, RNA-Directed DNA Polymerase genetics, RNA-Directed DNA Polymerase metabolism, Swine, Virus Cultivation, Antiviral Agents pharmacology, Endogenous Retroviruses drug effects, Protease Inhibitors pharmacology, Reverse Transcriptase Inhibitors pharmacology
Abstract

Porcine xenografts may offer a solution to the shortage of human donor allografts. However, all pigs contain the porcine endogenous retrovirus (PERV), raising concerns regarding the transmission of PERV and the possible development of disease in xenotransplant recipients. We evaluated 11 antiretroviral drugs licensed for human immunodeficiency virus type 1 (HIV-1) therapy for their activities against PERV to assess their potential for clinical use. Fifty and 90% inhibitory concentrations (IC(50)s and IC(90)s, respectively) of five nucleoside reverse transcriptase inhibitors (RTIs) were determined enzymatically for PERV and for wild-type (WT) and RTI-resistant HIV-1 reference isolates. In a comparison of IC(50)s, the susceptibilities of PERV RT to lamivudine, stavudine, didanosine, zalcitabine, and zidovudine were reduced >20-fold, 26-fold, 6-fold, 4-fold, and 3-fold, respectively, compared to those of WT HIV-1. PERV was also resistant to nevirapine. Tissue culture-based, single-round infection assays using replication-competent virus confirmed the relative sensitivity of PERV to zidovudine and its resistance to all other RTIs. A Gag polyprotein-processing inhibition assay was developed and used to assess the activities of protease inhibitors against PERV. No inhibition of PERV protease was seen with saquinavir, ritonavir, indinavir, nelfinavir, or amprenavir at concentrations >200-fold the IC(50)s for WT HIV-1. Thus, following screening of many antiretroviral agents, our findings support only the potential clinical use of zidovudine.

Published
2001
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33. Host range and interference studies of three classes of pig endogenous retrovirus.

Author

Takeuchi Y, Patience C, Magre S, Weiss RA, Banerjee PT, Le Tissier P, and Stoye JP

Subjects
Animals, Base Sequence, Cell Line, DNA Primers genetics, Dogs, Endogenous Retroviruses genetics, Genes, env, Genetic Vectors, Genome, Viral, Humans, Lac Operon, Mice, Rats, Recombination, Genetic, Species Specificity, Transduction, Genetic, Viral Interference, Endogenous Retroviruses classification, Endogenous Retroviruses pathogenicity, Swine virology
Abstract

Recent interest in the use of porcine organs, tissues, and cells for xenotransplantation to humans has highlighted the need to characterize the properties of pig endogenous retroviruses (PERVs). Analysis of a variety of pig cells allowed us to isolate and identify three classes of infectious type C endogenous retrovirus (PERV-A, PERV-B, and PERV-C) which have distinct env genes but have highly homologous sequences in the rest of the genome. To study the properties of these env genes, expression plasmids for the three env genes were constructed and used to generate retrovirus vectors bearing corresponding Env proteins. Host range analyses by the vector transduction assay showed that PERV-A and PERV-B Envs have wider host ranges, including several human cell lines, compared with PERV-C Env, which infected only two pig cell lines and one human cell line. All PERVs could infect pig cells, indicating that the PERVs have a potential to replicate in pig transplants in immunosuppressed patients. Receptors for PERV-A and PERV-B were present on cells of some other species, including mink, rat, mouse, and dog, suggesting that such species may provide useful model systems to study infection and pathogenicity of PERV. In contrast, no vector transduction was observed on nonhuman primate cell lines, casting doubt on the utility of nonhuman primates as models for PERV zoonosis. Interference studies showed that the three PERV strains use receptors distinct from each other and from a number of other type C mammalian retroviruses.

Published
1998
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34. Evidence that gonadotropin-releasing hormone stimulates gene expression and levels of active nitric oxide synthase type I in pituitary gonadotrophs, a process altered by desensitization and, indirectly, by gonadal steroids.

Author

Garrel G, Lerrant Y, Siriostis C, Bérault A, Magre S, Bouchaud C, and Counis R

Subjects
Animals, Blotting, Western, Drug Tolerance, Gonadotropin-Releasing Hormone agonists, Gonadotropin-Releasing Hormone antagonists & inhibitors, Histocytochemistry, Isoenzymes genetics, Isoenzymes metabolism, Kinetics, Male, NADPH Dehydrogenase analysis, Orchiectomy, RNA, Messenger metabolism, Rats, Rats, Wistar, Triptorelin Pamoate pharmacology, Estradiol pharmacology, Gene Expression drug effects, Gonadotropin-Releasing Hormone pharmacology, Nitric Oxide Synthase genetics, Nitric Oxide Synthase metabolism, Pituitary Gland, Anterior enzymology, Testosterone pharmacology
Abstract

To determine the site and mechanism of action of gonadal steroids on pituitary nitric oxide synthase type I (NOS I), present in both gonadotrophs and folliculo-stellate cells, the effects of castration and steroids were examined in male rats, in the presence of a GnRH antagonist (Antarelix). Western analysis showed a rapid and substantial increase with time, after orchidectomy, of NOS I protein, the concentration doubling in 24 h and reaching a maximal 4- to 5-fold increase after 3-7 days, followed by a progressive decline after 2 weeks. Testosterone or estradiol replacement, or administration of GnRH antagonist, totally abolished the effects of castration, demonstrating a mediation of the steroid effects via GnRH. In noncastrated rats, steroids and the GnRH antagonist also caused a reduction in the levels of NOS I (by 50-60%), consistent with inhibition of endogenous GnRH stimulation. In marked contrast, administration of a potent GnRH agonist (Triptorelin) to intact rats increased the levels of NOS I. A time-course study with a long-lasting formulation showed that rise in NOS I developed rapidly after a lag of approximately 5 h, with a 2-fold increase detectable after 8 h and a maximal 4.5-fold after 48 h. The level declined afterwards in a manner consistent with homologous desensitization that may occur in the continuous presence of GnRH; however, the profile was different and delayed compared with those of gonadotropin release. As observed for NOS I protein, NOS I messenger RNA concentration was increased by castration or GnRH agonist and reduced by steroids or GnRH antagonist. Taken together, these data demonstrate that steroids indirectly regulate NOS I messenger RNA and protein levels, through the hypothalamic modulation of GnRH, which represents the primary regulator of NOS I. No effect of steroids on NOS I was seen in the posterior lobe. NADPH-diaphorase histochemistry coupled to immuno-identification of the cells revealed that the treatments affecting the concentration of NOS I concomitantly altered the activity but exclusively in gonadotrophs and not in folliculo-stellate cells (which do not respond to GnRH), reinforcing the idea that GnRH played a major regulatory role. Expression in gonadotrophs of a GnRH-dependent NOS I and the ensuing production of nitric oxide represents a potentially novel signaling pathway for the neuropeptide in the anterior pituitary, consistent with the previously reported GnRH-induced cGMP production, the role of which remains to be evaluated.

Published
1998
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35. Switch in the expression of the K19/K18 keratin genes as a very early evidence of testicular differentiation in the rat.

Author

Fridmacher V, Le Bert M, Guillou F, and Magre S

Subjects
Animals, Base Sequence, Female, Gestational Age, Male, Molecular Sequence Data, Ovary embryology, RNA, Messenger biosynthesis, Rats, Rats, Wistar, Gene Expression Regulation, Developmental physiology, Keratins genetics, Sex Differentiation genetics, Testis embryology
Abstract

It has been shown previously that acidic K18 and K19 keratins display a differential immunohistochemical pattern of expression during sexual differentiation of the gonads in the rat (Fridmacher et al. (1992) Development 115, 503-517). The present results indicate that K18 and K19 gene expression is regulated at the transcriptional level. The analysis was performed by Northern Blot, reverse transcriptase polymerase chain reaction (RT-PCR) and in situ hybridization. PCR products were cloned, sequenced and used as species-specific K18 and K19 riboprobes for in situ hybridization. K19 mRNA but not K18 mRNA was detected in undifferentiated gonads and in somatic cells of ovarian cords throughout the fetal ovary development. K18 mRNA expression appeared in male gonads, at 13.5 days of gestation, at the onset of testicular differentiation, as the first Sertoli cells differentiated and aggregated to form seminiferous cords. As testicular differentiation progressed, K19 mRNA disappeared and, from 14.5 days of gestation on, fetal Sertoli cells expressed exclusively K18 mRNA. The changes in the transcriptional activity of K19 and K18 genes, observed in male gonads, occur characteristically at the very beginning of testicular differentiation. In the male pathway of sexual differentiation, the switch in K19/K18 gene expression is, in addition to the activation of the anti-Müllerian hormone gene, the most precocious regulative event occurring after the expression of the testis determining factor SRY.

Published
1995
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36. Effect of serum on organogenesis of the rat testis in vitro.

Author

Chartrain I, Magre S, Maingourd M, and Jost A

Subjects
Animals, Blood Proteins analysis, Chromatography, Affinity, Chromatography, Gel, Chromatography, Ion Exchange, Culture Media, Female, Glycoproteins pharmacology, Hot Temperature, In Vitro Techniques, Isoelectric Focusing, Male, Molecular Weight, Morphogenesis, Pregnancy, Rats, Rats, Inbred Strains, Sex Differentiation, Species Specificity, Blood Physiological Phenomena, Testis embryology
Abstract

It was observed previously that primordia of fetal rat testes when explanted in vitro in a synthetic medium at the outset of sexual differentiation differentiate seminiferous cords during the following days, but that the addition of 15% fetal bovine serum prevents this morphogenesis. In the present study, human, horse, bovine calf, and rat sera were shown to exert the same effect. Very low concentrations of human or fetal bovine serum (0.5 or 1%) were sufficient to produce the serum effect, which was only slightly reduced when the serum was heated. The serum activity was not removed by dialysis (membrane cut-off 15 000), but it disappeared after treatment with trichloroacetic or perchloric acids or after trypsin digestion. Partial purification of the active factor(s) from human serum was achieved by successive gel filtration, affinity chromatography, and ion exchange chromatography. Analysis of the active fractions by electrofocusing and immunoelectrophoresis placed the activity within the alpha globulin group. Among a series of purified serum proteins tested, alpha 2-HS-glycoprotein was found to exhibit the serum effect, though this activity was heat labile.

Published
1984
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37. Initial phases of the rat testis differentiation in vitro.

Author

Agelopoulou R, Magre S, Patsavoudi E, and Jost A

Subjects
Animals, Blood, Cell Differentiation, Culture Media, Gestational Age, Male, Morphogenesis, Organ Culture Techniques, Rats, Rats, Inbred Strains, Testis cytology, Time Factors, Testis embryology
Abstract

Rat gonadal primordia with their supporting mesonephroi were explanted in vitro at the undifferentiated stage (12 days 16 h after fertilization), at the outset of testicular differentiation (13 days 9 h) or when already containing seminiferous cords. The younger foetuses were sexed with the sex chromatin test in the amniotic membrane. The basal medium was CMRL 1066 and the culture period, 1 to 4 days. Testicular differentiation resulted from the appearance of large clear cells, the primordial Sertoli cells, and from their aggregation into seminiferous cords. Addition of 15% foetal calf serum to the medium prevented the differentiation of seminiferous cords, but large clear cells appeared. In testes from 14- or 15-day-old foetuses, the seminiferous cords disintegrated under the influence of serum. The serum did not prevent the differentiation of Sertoli cells, but impaired organogenesis or maintenance of the early seminiferous cords. The results support previous histological observations on the initial stages of testicular differentiation.

Published
1984

38. Anti-müllerian hormone and freemartinism: inhibition of germ cell development and induction of seminiferous cord-like structures in rat fetal ovaries exposed in vitro to purified bovine AMH.

Author

Vigier B, Watrin F, Magre S, Tran D, Garrigou O, Forest MG, and Josso N

Subjects
Animals, Anti-Mullerian Hormone, Female, Organ Culture Techniques, Ovary anatomy & histology, Ovary drug effects, Rats, Rats, Inbred Strains, Embryonic and Fetal Development drug effects, Freemartinism physiopathology, Glycoproteins, Growth Inhibitors, Mullerian Ducts physiology, Ovary embryology, Testicular Hormones pharmacology
Abstract

In 13 and 14-day old fetal rat ovaries maintained 3 to 10 days in organ culture, purified bovine anti-Müllerian hormone (AMH) (1.5 to 3 micrograms/ml) induced a characteristic freemartin effect. Gonadal volume and germ cell number were significantly reduced, compared to control ovaries cultured in anhormonal medium, and epithelial cells with large clear cytoplasm linked by interdigitations differentiated in the gonadal blastema. These cells resembling rat fetal Sertoli cells became polarized and formed seminiferous cord-like structures delineated by a basal membrane containing laminin and fibronectin as is the case of testicular seminiferous cords at the first step of their differentiation. These data indicate that AMH is probably the testicular factor responsible for the morphological modifications of bovine freemartin gonads and suggest that this hormone could also be involved in normal morphological differentiation of the testis. In contrast, in fetal rat ovaries, AMH did not trigger the testosterone production which occurs in freemartin gonads at an early stage of the gestation.

Published
1988
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