Impact of endocrine-active compounds on adrenal androgen production in pigs during neonatal period.

This study investigated the impact of neonatal exposure to endocrine-active compounds (EACs): flutamide (antiandrogen), 4-tert-octylphenol (an estrogenic compound), and methoxychlor (an organochlorine insecticide exhibiting estrogenic, antiestrogenic and antiandrogenic activities) on androgen production within porcine adrenal glands. The expression of genes related to androgen synthesis and the level of androgen production were analyzed (i) in the adrenal glands of piglets exposed to EACs during the first 10 days of life (in vivo study), and (ii) in adrenal explants from sow-fed or formula-fed 10-day-old piglets incubated with EACs (ex vivo study). EACs affected the expression of genes linked to adrenal androgen biosynthesis. The prominent effect of methoxychlor on downregulation of StAR, CYP11A1 and HSD3B and upregulation of CYP17A1 and SULT2A1 were demonstrated. Furthermore, our study revealed divergent response to EACs between sow-fed and formula-fed piglets, suggesting that natural feeding may provide protection against adverse EACs effects, particularly those interfering with estrogens action.

Long-Term Changes in Ovarian Follicles of Gilts Exposed Neonatally to Methoxychlor: Effects on Oocyte-Derived Factors, Anti-Müllerian Hormone, Follicle-Stimulating Hormone, and Cognate Receptors.

In this paper, we investigated the effects of neonatal exposure to methoxychlor (MXC), a synthetic organochlorine used as an insecticide with estrogenic, antiestrogenic, and antiandrogenic activities on ovarian follicles of adult pigs. Piglets were injected with MXC (20 µg/kg body weight) or corn oil (controls) from postnatal Day 1 to Day 10 (n = 5 per group). Then, mRNA expression, protein abundance and immunolocalization of growth and differentiation factor 9 (GDF9), bone morphogenetic protein 15 (BMP15), anti-Müllerian hormone (AMH) and cognate receptors (ACVR1, BMPR1A, BMPR1B, TGFBR1, BMPR2, and AMHR2), as well as FSH receptor (FSHR) were examined in preantral and small antral ovarian follicles of sexually mature gilts. The plasma AMH and FSH levels were also assessed. In preantral follicles, neonatal exposure to MXC increased GDF9, BMPR1B, TGFBR1, and BMPR2 mRNAs, while the levels of AMH and BMP15 mRNAs decreased. In addition, MXC also decreased BMP15 and BMPR1B protein abundance. Regarding small antral follicles, neonatal exposure to MXC upregulated mRNAs for BMPR1B, BMPR2, and AMHR2 and downregulated mRNAs for AMH, BMPR1A, and FSHR. MXC decreased the protein abundance of AMH, and all examined receptors in small antral follicles. GDF9 and BMP15 were immunolocalized in oocytes and granulosa cells of preantral follicles of control and treated ovaries. All analyzed receptors were detected in the oocytes and granulosa cells of preantral follicles, and in the granulosa and theca cells of small antral follicles. The exception, however, was FSHR, which was detected only in the granulosa cells of small antral follicles. In addition, MXC decreased the plasma AMH and FSH concentrations. In conclusion, the present study may indicate long-term effects of neonatal MXC exposure on GDF9, BMP15, AMH, and FSH signaling in ovaries of adult pigs. However, the MXC effects varied at different stages of follicular development. It seems that neonatal MXC exposure may result in accelerated initial recruitment of ovarian follicles and impaired cyclic recruitment of antral follicles.

Effects of neonatal methoxychlor exposure on the ovarian transcriptome in piglets.

Methoxychlor (MXC) is a man-made organochlorine insecticide capable of disrupting endocrine functions due to its mixed steroidal properties (estrogenic, anti-estrogenic and/or anti-androgenic). Retarded follicle development was recently reported in neonatal pigs treated with MXC. The goal of the current study was to better understand the mechanism of MXC action in the ovary of newborn piglets. By employing RNA-Seq we studied the expression of protein coding (mRNA) and long non-coding RNA (lncRNA) transcripts in the ovary of the MXC-treated piglets. Piglets were injected (sc) daily with MXC (100 mg/kg body weight) or corn oil (controls) between postnatal Days 1 and 10 (n = 3 piglets/group). The ovaries excised from 11-day-old piglets were processed for total RNA isolation and subsequent RNA sequencing. Four hundred sixty differentially expressed genes (DEGs) and 143 differentially expressed lncRNAs (DELs) were identified in the ovaries of MXC-treated piglets (P-adjusted < 0.05; abs(log2FC) > 1). Functional enrichment analysis showed that MXC altered the expression of genes associated with intracellular and membrane transport, intra-ovarian signaling as well as cell-cell junction and communication. Moreover, positive and negative correlations determined between the identified DEGs and DELs suggest that some lncRNAs may mediate the MXC action in the ovary. The results support the hypothesis that MXC-induced changes in the expression of genes involved in neonatal ovarian folliculogenesis increase the risk of fertility problems in adults.

Effects of neonatal exposure to methoxychlor on corpus luteum in gilts: A transcriptomic analysis.

This study investigated the effects of neonatal exposure to methoxychlor (MXC), a synthetic organochlorine used as an insecticide with estrogenic, antiestrogenic, and antiandrogenic activities, on luteal function in pigs. Piglets were injected subcutaneously with MXC (20 µg/kg body weight) or corn oil (control) between postnatal Days 1 and 10 (N = 5/group). Corpora lutea from sexually mature gilts were examined for luteal steroid and prostaglandin concentrations and processed for total RNA isolation and subsequent RNA sequencing. Intra-luteal concentrations of androstenedione and prostaglandin E2 were greater, while that of estrone was lower when compared to control. Fifty-three differentially expressed (DE) microRNAS (miRNAs) (p-adjusted <.05 and log2(fold change) ≥.5) and 359 DE genes (p-adjusted <.05 and log2(fold change) ≥1) were identified in luteal tissue in response to neonatal MXC treatment. MXC was found to affect the expression of genes related to lipogenesis, steroidogenesis, membrane transport, immune response, cell signaling and adhesion. These results suggest an earlier onset of structural luteolysis in pigs caused by MXC actions in neonates. Since negative correlation analysis showed the potential interactions of miRNAs with specific messenger RNAs, we propose that these miRNAs are potential mediators of the long-term MXC effect on the CL function in pigs.

Vitamin D3 in ovarian antral follicles of mature gilts: Expression of its receptors and metabolic enzymes, concentration in follicular fluid and effect on steroid secretion in vitro.

Recent studies have reported that vitamin D3 (VD) regulates ovarian function under physiological and pathological conditions. Due to a lack of information concerning the expression of VD-related molecules (receptors: VDR, PDIA3, and metabolic enzymes: CYP27B1, CYP24A1) in the porcine ovary, this research aimed to determine the mRNA expression, protein abundance and localization of VDR, PDIA3, CYP27B1 and CYP24A1 in small (SFs), medium (MFs) and large (LFs) antral follicles of sexually mature gilts. We also examined the concentration of active VD in the follicular fluid of SFs, MFs and LFs, and the effect of 1,25(OH)2D3 on their steroidogenic activity in vitro. In the present study, we have demonstrated for the first time the patterns of VDR, PDIA3, CYP27B1 and CYP24A1 immunolocalization in porcine antral follicles of different sizes. Furthermore, the expression of VD-related molecules was influenced by follicle developmental stage. VDR and PDIA3 mRNA expression and protein abundance decreased with the follicle size: they were the greatest in SFs, and the lowest in LFs. CYP27B1 mRNA expression was the highest in MFs and differed from that in SFs, whereas protein abundance was greater in MFs and SFs than in LFs. The expression of mRNA for CYP24A1 was higher in MFs than in SFs and LFs, while protein abundance did not differ between follicle classes. We have also described changes in the concentration of 1,25(OH)2D3 in the follicular fluid of antral follicles with its highest level in MFs. These findings show that the porcine antral follicle is a target tissue for direct VD action and is a local site of VD metabolism. Furthermore, we found that 1,25(OH)2D3 increased the secretion of progesterone and estradiol-17ß by SFs and MFs in vitro, implying a crucial role of VD in the regulation of ovarian steroidogenesis in mature gilts. Therefore, VD appears to be an important intraovarian factor that could regulate follicular development and function in pigs.

Effect of neonatal exposure to endocrine-active compounds on epigenetic regulation of gene expression in corpus luteum of gilts.

Recently, we have demonstrated that neonatal exposure to environmental endocrine-active compounds (EACs) with androgenic/antiandrogenic and estrogenic/antiestrogenic activities led to morphological and functional changes in the porcine corpus luteum (CL). To gain insight into the regulatory mechanisms of the long-term effects of EACs, we analyzed the impact of neonatal exposure of such compounds on global DNA methylation and the expression of miRNA biogenesis components in the porcine CL. Piglets were injected subcutaneously with testosterone propionate (TP, an androgen), flutamide (FLU, an antiandrogen), 4-tert-octylphenol (OP, an estrogenic compound), ICI 182,780 (ICI, an antiestrogen), methoxychlor (MXC, a compound with mixed activities) or corn oil (control) between postnatal days 1 and 10 (n = 5/group). The CLs from sexually mature gilts were examined for global DNA methylation and for the abundance of proteins related to DNA methylation (DNMT1, DNMT3A and DNMT3B) and miRNA biogenesis (DROSHA, XPO5, DICER1, AGO2) using an enzyme-linked immunosorbent assay, Western blotting and immunohistochemical staining. ICI and MXC increased the global DNA methylation levels and DNMT1 protein abundance in the luteal tissue. OP treatment led to a lower DROSHA protein abundance, while ICI treatment resulted in a greater DROSHA protein abundance. Both FLU and ICI increased DICER1 protein abundance in the luteal tissue. In addition, XPO5 showed immunolocalization exclusively in small luteal cells in the OP-treated pigs, in contrast to localization in both small and large luteal cells in the controls. In conclusion, the changes in DNA methylation, as well as the altered miRNA biogenesis components, seem to be a part of the regulatory network that mediates the long-term effects of EACs on CL function in pigs.

Transcriptomic profiles of the ovaries from piglets neonatally exposed to 4-tert-octylphenol.

The environmental pollutants with hormonal activities may influence steroid-mediated processes in neonatal ovaries and increase the incidence of reproductive disorders. The aim of the current study was to examine effects of 4-tert-octylphenol (OP), a non-ionic surfactant widely used in a variety of industrial applications which has been reported to mimic the 17ß-estradiol activity, on the expression of protein-coding (mRNAs) and long non-coding (lncRNAs) transcripts in neonatal ovaries of the pig. By employing RNA-Seq we aimed to gain insights into regulatory networks underlying the OP effects on the follicular development in pigs. Piglets were injected (sc) daily with OP (100 mg/kg bw) or corn oil (controls) between postnatal Days 1 and 10 (n = 3/group). Ovaries were excised from the 11-day-old piglets and total cellular RNA was isolated and sequenced. Two hundred three differentially expressed genes (DEGs; P-adjusted < 0.05 and log2 fold change ≥1.0) and 23 differentially expressed lncRNAs (DELs; P-adjusted < 0.05 and log2 fold change ≥ 1.0) were identified in OP-treated piglet ovaries. The DEGs were assigned to Gene Ontology terms, covering biological processes, molecular functions and cellular components, which linked the DEGs to functions associated with movement of cell or subcellular component, regulation of plasma membrane bounded cell projection assembly as well as hydrolase and endopeptidase activity. In addition, STRING analysis demonstrated the strongest interactions between genes related to negative regulation of endopeptidase activity. Some correlations between DEGs and DELs were also found, revealing that the OP action on the ovary may be partially executed via the changes in the lncRNA expression. These results suggest that neonatal exposure of pigs to OP induces changes in the ovarian transcriptomic profile associated with genes encoding serine protease inhibitors and involved in steroid synthesis as well as genes linked to intracellular and membrane transport. We suggest that the changes in the mRNA and lncRNA expression in the ovaries of OP-treated piglets may disturb ovarian cellular function, including steroidogenesis, proliferation and apoptosis.

A transcriptome approach evaluating effects of neonatal androgen and anti-androgen treatments on regulation of luteal function in sexually mature pigs.

The current study was designed to gain insights into regulatory mechanisms mediating long-term effects of androgen excess or deficiency on corpus luteum function in pigs. Piglets were injected subcutaneously with testosterone propionate (TP, an androgen), flutamide (FLU, an anti-androgen) or corn oil (control) between postnatal Days 1 and 10. Corpora lutea from sexually mature gilts were examined for luteal steroid concentrations and processed for total RNA isolation and subsequent RNA sequencing to determine abundances of mRNA transcripts and microRNAs (miRNAs). Potential miRNA-mRNA interactions were explored in silico. Androstenedione, testosterone and estrone concentrations in corpora lutea were altered due to the disrupted androgen action in neonates. The luteal tissue had 465 and 353 genes for which there were differential mRNA abundances as compared with the control group (P-adjusted < 0.05; log2FC ≥ 1.0) in response to neonatal TP and FLU piglet treatments, respectively. Disruption of androgen signalling in neonates affected mRNA transcript abundance, as compared with the control group, for genes associated with apoptosis, angiogenesis and immune functions in the corpora lutea. Furthermore, there was a differential abundance of a group of miRNAs in the treatment groups compared with the control group. These results indicate the neonatal androgenic milieu affects the onset of luteolysis when these animals are sexually mature, although mechanisms for responses to TP or FLU likely differ. It is proposed that changes in specific miRNAs and mRNAs may, in part, account for long-term effects of androgen excess or androgen deficiency on corpus luteum function in pigs.

Neonatal Exposure to Agonists and Antagonists of Sex Steroid Receptors Affects AMH and FSH Plasma Level and Their Receptors Expression in the Adult Pig Ovary.

In this study piglets were injected with testosterone propionate (TP, an androgen), flutamide (FLU, an antiandrogen), 4-tert-octylphenol (OP, an estrogenic compound), ICI 182,780 (ICI, an antiestrogen) or corn oil (controls) between postnatal days 1 and 10 (N = 5/group). Then plasma anti-Müllerian hormone (AMH) and follicle stimulating hormone (FSH) concentration and the expression of their receptors were examined in the adult pig ovary. TP and FLU decreased plasma AMH and FSH concentration. In preantral follicles, TP resulted in upregulation of AMHR2 and FSHR expression, but decreased AMH protein abundance. FLU upregulated AMHR2 expression, while OP increased FSHR mRNA. In small antral follicles, OP upregulated ACVR1 and BMPR1A expression, while FLU increased BMPR1A mRNA. FLU and ICI resulted in upregulation of AMHR2 expression. TP and FLU upregulated AMH expression, while it was downregulated in response to OP or ICI. Moreover, OP and ICI resulted in downregulation of FSHR expression, while FLU decreased FSHR protein abundance. In conclusion, neonatal exposure to either agonist or antagonist of androgen receptor affected AMH and FSH signalling systems in preantral follicles. In small antral follicles these systems were influenced by compounds with estrogenic, antiestrogenic, and antiandrogenic activity. Consequently, these hormonal agents may cause an accelerated recruitment of primordial follicles and affect the cycling recruitment of small antral follicles in pigs.

Neonatal exposure to agonists and antagonists of sex steroid receptors induces changes in the expression of oocyte-derived growth factors and their receptors in ovarian follicles in gilts.

The objective of the present study was to examine the effects of neonatal exposure to either agonists or antagonists of androgen and estrogen receptors on the expression of growth and differentiation factor 9 (GDF9) and bone morphogenetic protein 15 (BMP15) and their cognate receptors (TGFBR1, BMPR1B, and BMPR2) in ovarian follicles of adult pigs. Piglets were injected subcutaneously with testosterone propionate (TP, an androgen, at 20 mg/kg bw), flutamide (FLU, an antiandrogen, at 50 mg/kg bw), 4-tert-octylphenol (OP, an estrogenic compound, 100 mg/kg bw), ICI 182,780 (ICI, an antiestrogen, 400 µg/kg bw), or corn oil (control) between postnatal Days 1 and 10 (n = 5/group). Ovarian follicles were excised from adult pigs on Days 8-11 of the estrous cycle. The expression of GDF9, BMP15, TGFBR1, BMPR1B and BMPR2 were examined in the population of preantral and small antral ovarian follicles using real-time PCR, Western blot and immunohistochemistry. In preantral follicles, the upregulation of GDF9 mRNA and protein expression was found in pigs that were neonatally exposed to TP or FLU, while administration of TP or ICI resulted in upregulation of BMP15. TGFBR1 and BMPR2 mRNA and protein expression were upregulated in preantral follicles of adult pigs that were neonatally exposed to TP or FLU, while administration of TP or ICI resulted in upregulation of BMPR1B. In small antral follicles, the mRNA and protein for TGFBR1 and BMPR2 were upregulated, while BMPR1B was downregulated in response to neonatal OP treatment. In addition, treatment with FLU upregulated BMPR1B and BMPR2 mRNA and protein expression, while downregulated the expression of TGFBR1. Moreover, GDF9 and BMP15 were immunolocalized in oocytes and granulosa cells of preantral follicles obtained from both control and treated ovaries. TGFBR1, BMPR1B and BMPR2 receptors were observed in the oocytes and granulosa cells of preantral follicles as well as in granulosa and theca cells of small antral follicles. In conclusion, the present study demonstrated neonatal exposure to either agonists or antagonists of androgen and estrogen receptors affected GDF9 and BMP15 signalling in ovaries of adult pigs. It seems that neonatal androgen excess or deficiency may lead to the acceleration of initial follicle recruitment, while neonatal exposure to compounds with antiandrogenic and estrogenic activity may disturb small antral follicles fate. Therefore, it confirms that neonatal window is critical for programming of ovarian function in pigs.

Flutamide-induced alterations in transcriptional profiling of neonatal porcine ovaries.

BACKGROUND: Androgens are involved in the regulation of ovarian development during fetal/neonatal life. Environmental chemicals displaying anti-androgenic activities may affect multiple signal transduction pathways by blocking endogenous androgen action. The aim of the current study was to examine effects of the anti-androgen flutamide on the expression of coding transcripts and long non-coding RNAs (lncRNAs) in neonatal porcine ovaries. By employing RNA-Seq technology we aimed to extend our understanding of the role of androgens in neonatal folliculogenesis and examine the impact of the anti-androgen flutamide on ovarian function. METHOD: Piglets were subcutaneously injected with flutamide (50 mg/kg BW) or corn oil (controls) between postnatal days 1 and 10 (n = 3/group). Ovaries were excised from the 11-day-old piglets and total cellular RNAs were isolated and sequenced. RESULTS: Flutamide-treated piglet ovaries showed 280 differentially expressed genes (DEGs; P-adjusted < 0.05 and log2 fold change ≥1.0) and 98 differentially expressed lncRNAs (DELs; P-adjusted < 0.05 and log2FC ≥ 1.0). The DEGs were assigned to GO term, covering biological processes, molecular functions and cellular components, which linked the DEGs to functions associated with cellular transport, cell divisions and cytoskeleton. In addition, STRING software demonstrated strongest interactions between genes related to cell proliferation. Correlations between DEGs and DELs were also found, revealing that a majority of the genes targeted by the flutamide-affected lncRNAs were associated with intracellular transport and cell division. CONCLUSIONS: Our results suggest that neonatal exposure of pigs to flutamide alters the expression of genes involved in ovarian cell proliferation, ovarian steroidogenesis and oocyte fertilization, which in turn may affect female reproduction in adult life.

Assessment of morphological changes and steroid receptors in the uteri of postmenopausal women.

INTRODUCTION: The morphology of the endometrium constantly changes in the reproductive period, depending on the levels of ovarian steroid hormones, and undergoes atrophic changes during menopause as a result of their insufficiency. The purpose of this study was to analyze morphological and morphometric changes in the mucous and muscle layers of the uterine wall in postmenopausal women, and to assess localization and number of cells showing the expression of steroid hormone receptors, namely estrogen receptor α (ER-α), progesterone receptor (PR), and androgen receptor (AR) in glandular epithelial cells and smooth muscle cells in particular groups of women. MATERIAL AND METHODS: The study material consisted of uterine specimens sectioned across the full thickness of the uterine wall, and embedded in 164 paraffin blocks. The specimens came from women without menopausal hormone therapy (MHT) operated due to reproductive organ prolapse or uterine myomas. The material was divided into four groups depending on the time interval from menopause to surgery: group I - from 1 to 5 years after menopause, group II - from 6 to 10 years after menopause, group III - more than 11 years after menopause, and group IV - women over 70 years of age. The sections were stained by standard HE, Masson's trichrome, and immunohistochemical methods (ERα, PR, AR). Quantitative assessment of the results was based on computer image analysis. RESULTS: Analysis of morphological changes in the endometrium and myometrium revealed the presence of increasing regressive changes, such as various types of atrophy, fibrosis, and calcification, augmented over time from the last menstruation. Furthermore, endometrial polyps, foci of endometriosis, and leiomyomas were observed. Based on the results of morphometric measurements, a constant decrease in the endometrial and myometrial thickness was noticed in the studied groups (I-IV). Significant differences between the groups were observed in the number of ER-α positive cells in the myometrium, but not in the endometrial glandular epithelium. Statistically significant differences in the number of AR positive cells were detected in the endometrial epithelium and in the uterine muscle. The analysis the number of PR positive cells demonstrated differences between the groups in the endometrial stroma and the myometrium. CONCLUSION: The uterus of postmenopausal woman undergo major morphological changes (mainly atrophic lesions in the endometrium and myometrium), leading to a decline in their morphometric parameters over time from the last menstruation. Localization and number of cells showing the expression of steroid receptors: ER-α, PR, and AR in the uterus of postmenopausal women, depending on the time interval from the last menstruation.

The impact of sex steroid agonists and antagonists on folliculogenesis in the neonatal porcine ovary via cell proliferation and apoptosis.

The objective of the study was to examine the effects of androgen and estrogen agonists or antagonists on the follicle formation, ovarian cell proliferation and apoptosis as well as plasma steroid concentration in neonatal pigs. Piglets were injected with testosterone propionate (TP, 20 mg/kg bw), flutamide (FLU, 50 mg/kg bw), 4-tert-octylphenol (OP, 100 mg/kg bw), ICI 182,780 (ICI, 400 µg/kg bw), methoxychlor (MXC, 100 mg/kg bw) or corn oil (CTR, controls) between postnatal Days 1 and 10 (n = 4/group). Heart blood was collected and ovaries were excised from the 11-day-old piglets. The lower percentage of oocytes within an egg nest and higher ovarian expression of active caspase 3 were found in TP (androgen excess) piglets compared to controls. FLU-induced androgen deficiency decreased the percentage of primordial follicles, increased that of early primary follicles and diminished ovarian cell proliferation. OP-induced estrogen action increased the percentage of primordial and developing follicles as well as cell proliferation. ICI-induced estrogen deficiency decreased the percentage of transitional follicles and ovarian cell proliferation, while increased the percentage of primordial follicles and the abundance of active caspase 3. Treatment with MXC, exhibiting estrogenic, antiestrogenic, and antiandrogenic activities, declined the percentage of developing follicles and cell proliferation. Moreover, the investigated compounds differentially affected plasma steroid level. In conclusion, the present study demonstrated clear effects of TP and FLU during the earliest stages of folliculogenesis in pigs (nest breakdown and follicle assembly), whereas OP and ICI influenced also the subsequent stages of follicle initial recruitment and growth. Therefore, the androgen and estrogen seems to be important for the follicle assembly and follicle growth in neonatal porcine ovaries.

The impact of antiandrogen flutamide on the hypoxia inducible factor 1a and vascular endothelial growth factor A gene and protein expression in the pig placenta during late pregnancy.

INTRODUCTION: In contrast to estradiol action, little is known about androgen signaling in placental development. The purpose of this study was to evaluate the impact of diminished androgen action on hypoxia inducible factor 1a (HIF-1a) and vascular endothelial growth factor A (VEGFA) protein expression as well as their mRNAs in the structures of fetal and maternal parts of porcine placenta during late pregnancy. MATERIAL AND METHODS: Pregnant pigs were injected daily with antiandrogen flutamide, at a dose of 50 mg/kg body weight at different stages of pregnancy: between gestational days 83-89 (90 dpc) and 101-107 (108 dpc). Control groups (90 dpc or 108 dpc) were treated with vehicle (corn oil). One day after the last injection animals were sacrificed and tissues were collected. Tissue samples were frozen for mRNA isolation or fixed for immu-nohistochemistry (IHC). The expression of HIF-1a and VEGFA were investigated by real-time PCR and IHC. RESULTS: Flutamide treatment caused changes in both HIF-1a and VEGFA mRNA levels only in the placentas of the 90 dpc group. Relative optical density analysis showed decreased HIF-1a and increased VEGFA protein expression in the placentas obtained from flutamide-treated 108 dpc group while no differences were observed in the 90 dpc group. CONCLUSIONS: Experimentally induced androgen deficiency in pigs deregulates the expression of some genes important for placental blood circulation. We suggest that androgens are involved in the control of expression of HIF-1a and VEGFA in porcine placenta during late pregnancy.

Effect of gestational antiandrogen treatment on Dicer1 expression in the porcine fetal gonads.

Recently, we have demonstrated that flutamide-induced androgen deficiency during fetal life led to changes in gene expression that affected both testicular functions and follicular formation. It is known that microRNA-mediated genes regulation is essential for gonadal development and function. Thus, the aim of the present study was to examine whether prenatal flutamide exposure influences expression of Dicer1, an enzyme involved in microRNA maturation, in gonads of porcine fetuses during mid- and late gestation. Pregnant gilts were injected with flutamide (50mg/day/kg b.w.) or corn oil (controls) between days 43-49, 83-89 or 101-107 of gestation. The fetal gonads were obtained on gestational day 50 (GD50), 90 (GD90) or 108 (GD108). To assess Dicer1 mRNA expression real-time PCR were performed. Furthermore, immunohistochemical Dicer1 localization was conducted. In testes from flutamide treated fetuses, increased Dicer1 mRNA expression was observed in the GD50 and GD108 groups, but decreased in the GD90 group. Dicer1 was immunolocalized in the fetal Leydig cells in both control and flutamide-treated groups. In fetal ovaries, antiandrogen treatment increased Dicer1 mRNA level in the GD50 and GD90 groups. In control and flutamide-exposed groups, Dicer1 was localized in the germ cells within oogonia/oocyte nests as well as in the granulosa cells and oocytes of forming follicles. Concluding, diminished androgen action during gestation induces changes in Dicer1 mRNA expression, which may affect post-transcriptional gene regulation via miRNAs in porcine fetal gonads. However, it seems that androgens exert diverse biological effects depending on the gestational period.

Analysis of porcine granulosa cell death signaling pathways induced by vinclozolin.

Recent studies suggest that disturbing androgen-signaling pathways in porcine ovarian follicles may cause granulosa cell (GC) death. For this reason, we investigated which apoptotic pathway is initiated after GC exposure to an environmental antiandrogen, vinclozolin (Vnz), in vitro. Immunocytochemistry, Western blots, and fluorometric assays were used to quantify caspase-3 and -9 expression and activity. To elucidate the specific mechanism of Vnz action and toxicity, GCs were assessed for viability, cytotoxicity, and apoptotic activity using the ApoTox-Glo Triplex Assay. To further determine the mechanism of GC death induced by Vnz, we used the Apoptosis Antibody Array Kit. In response to Vnz stimulus, we found an increased level of caspase-3 protein expression (P ≤ 0.001) and an increase in caspase-3 proteolytic activity (P ≤ 0.001), confirming that Vnz is a potent proapoptotic factor. The strong immunoreaction of caspase-9 after Vnz treatment (P ≤ 0.001) suggests that intrinsic mitochondrial apoptosis pathway was activated during GC death. On the other hand, caspase-8, being a part of the extrinsic receptor pathway, was also activated (P ≤ 0.001). Therefore, it is possible that Vnz induces porcine granulosal apoptosis also through a parallel pathway. Activation of these two pathways was confirmed by the Apoptosis Antibody Array Kit. In conclusion, it is possible that the intrinsic signaling pathway may not act as an initial trigger for GC apoptosis but might contribute to the amplification and propagation of apoptotic cell death in the granulosa layer after treatment with this antiandrogen. Moreover, Vnz disturbs the physiological process of programmed cell death. Consequently, this could explain why atretic follicles are rapidly removed and suggests that normal function of the ovarian follicle may be destroyed.

Flutamide alters ß-catenin expression and distribution, and its interactions with E-cadherin in the porcine corpus luteum of mid- and late pregnancy.

This study examined whether flutamide-induced androgen deficiency during mid- and late pregnancy in pigs affected luteal expression of adherens junction protein, ß-catenin, and its interactions with E-cadherin. Flutamide (50 mg/kg body weight) was administered into pregnant gilts between days 43-49 (GD50F), 83-89 (GD90F) or 101-107 (GD108F) of gestation. Corpora lutea (CLs) were obtained on day 50, 90 or 108 of pregnancy (n=8-11 per each group). Total ß-catenin and E-cadherin expression was examined at mRNA (real-time PCR) and protein (Western blot) level. Moreover, subcellular ß-catenin fractions were extracted and immunoblotted. Immunohistochemistry was used for ß-catenin localization. To determine whether flutamide disturbs ß-catenin/E-cadherin mutual interactions, coimmunoprecipitation using anti-ß-catenin antibody was performed. Furthermore, phosphorylation of E-cadherin was assessed. Flutamide exposure led to decreased ß-catenin mRNA expression in all examined groups (p<0.001 or p<0.01), but protein level was lower only in the GD90F and GD108F groups (p<0.05). E-cadherin mRNA (p<0.05 or p<0.01) and protein (p<0.05) levels were up-regulated in all flutamide-treated groups when compared to controls. ß-catenin was predominantly found in membranes of luteal cells with no significant changes after antiandrogen treatment. ß-catenin/E-cadherin complexes were more abundant in the GD90F (p<0.05) and GD108F (p<0.01) groups than in controls due to enhanced E-cadherin phosphorylation at serine 838/840 in those animals (p<0.05). Overall, although androgen deficiency affected ß-catenin expression in the CL of pregnancy in pigs, a compensatory mechanism by enhanced interactions with E-cadherin is possible. Thus, androgen signaling via androgen receptors appears to be crucial in the regulation of luteal cells cross-talk.

TGFß (transforming growth factor ß) superfamily members and their receptors in the fetal porcine ovaries: effect of prenatal flutamide treatment.

INTRODUCTION: We have recently demonstrated that antiandrogen treatment during fetal life resulted in delayed folliculogenesis. The aim of the present study was to investigate the effect of androgen deficiency induced by flutamide on the expression of TGFß superfamily members and their receptors which are involved in follicle formation and its transition to the primary stage. MATERIAL AND METHODS: Pregnant gilts were injected with flutamide (for seven days, 50 mg/day/kg b.w.) or corn oil (controls) starting at 43 (GD50), 83 (GD90) or 101 (GD108) gestational day. The expression in fetal ovaries of selected TGFß superfamily members (AMH, BMP4, GDF9), their receptors (AMHR-II, BMPR-IB, BMPR-II), and Smad1 and Smad3 proteins involved in signal transduction were investigated by real-time PCR and/or immunohistochemistry. RESULTS: Flutamide treatment increased the expression of BMP4 mRNA on GD50 and GD108 and BMPR-IB mRNA on GD50. The expression of BMPR-II was decreased at mRNA level and lower immunostaining intensity was observed after flutamide administration only on GD50. GDF9 and AMHR-II mRNA expression levels were significantly downregulated in both GD90 and GD108 groups. However, AMHR-II was immunolocalized only on GD108 and less positively stained oocytes were found after flutamide treatment. AMH mRNA level was diminished in the GD90 group, while it was elevated in the GD108 group. Moreover, the higher amounts of positively stained oocytes for phosphorylated form of Smad1 were observed following flutamide administration on GD108. CONCLUSIONS: Experimentally-induced androgen deficiency during fetal development deregulates the expression level of some of TGFß superfamily members and their receptors which may affect primordial follicle assembly. Our findings further underline the role of androgens in the early stages of follicle development.

Alterations in luteal production of androstenedione, testosterone, and estrone, but not estradiol, during mid- and late pregnancy in pigs: effects of androgen deficiency.

Recently, we have found that flutamide-induced androgen deficiency altered progesterone production in the porcine corpus luteum (CL) during mid- and late pregnancy. Herein, we tested whether flutamide administration subsequently influences androgen and estrogen metabolism in the CL of pregnancy. Pregnant gilts were treated with flutamide between Days 43 and 49 (GD50F), 83 and 89 (GD90F), or 101 and 107 (GD108F) of gestation. Corpora lutea (CLs) were collected from treated and nontreated (control) pigs. The concentrations of androstenedione (A4), testosterone (T), estrone (E1), and estradiol (E2) together with the levels of expression of mRNAs and proteins for cytochrome P450 17α-hydroxylase/c17-20 lyase (CYP17A1), 17ß-hydroxysteroid dehydrogenase type 1 (17ß-HSD1), cytochrome P450 aromatase (CYP19A1), and 17ß-hydroxysteroid dehydrogenase type 7 (17ß-HSD7) were measured in the CL of control and flutamide-treated animals. Steroidogenic enzymes were also immunolocalized in luteal tissues. The luteal concentrations of A4 and T were higher in the GD50F (P = 0.006, P = 0.03) and GD108F (P = 0.005, P = 0.035) groups, but lower in the GD90F (P = 0.004, P = 0.014) group. The E1 level was greater only in the GD90F (P = 0.03) and GD108F (P = 0.035) groups, whereas E2 concentration was not affected by flutamide treatment. Increased luteal CYP17A1 mRNA and protein expression was found in the GD50F (P = 0.002, P = 0.03) and GD108F (P = 0.0026, P = 0.03) groups, but reduced in the GD90F (P = 0.002, P = 0.03) group. mRNA of 17ß-HSD1 was upregulated in the GD50F (P = 0.0005) group, but downregulated in the GD90F (P = 0.002) and GD108F (P = 0.0005) groups. In contrast, 17ß-HSD1 protein expression was higher in the GD50F and GD108F (P = 0.03) groups, but lower in the GD90F (P = 0.03) group. Both CYP19A1 mRNA and protein levels were greater in the GD90F (P = 0.001, P = 0.028) and GD108F (P = 0.005, P = 0.03) groups. Neither 17ß-HSD7 mRNA nor protein level were affected by flutamide exposure. Both CYP17A1 and 17ß-HSD1 were immunolocalized exclusively in small luteal cells, whereas CYP19A1 and 17ß-HSD7 were found in large luteal cells of control and flutamide-treated CLs. Overall, flutamide administration led to the alterations in A4, T, and E1, but not in E2, production in the CL of pregnancy in pigs, probably because of disrupted steroidogenic enzymes expression. These changes suggest that androgens are important modulators of luteal function during pregnancy in pigs.

The effects of the environmental antiandrogen vinclozolin on the induction of granulosa cell apoptosis during follicular atresia in pigs.

The aim of this study was to investigate whether the androgens testosterone and dihydrotestosterone (DHT) and the antiandrogenic fungicide vinclozolin (Vnz) exert proapoptotic effects on porcine granulosa cells (GCs), and to examine the roles of these compounds in follicular atresia. Granulosa cells isolated from pig follicles were cultured for 24 hours, and then exposed to 0.1 µM testosterone, 0.1 µM DHT, 14 µM Vnz, or the equivalent concentrations of testosterone and Vnz or DHT and Vnz for a further 24 hours. Apoptosis and necrosis of the GCs were determined via Hoechst staining and flow cytometry analyses of annexin V-stained cells. Whole porcine follicles were also exposed to the same compounds and combinations of compounds for 24 hours. The sections were stained with hematoxylin and eosin for morphologic assessments, and a Terminal deoxynucleotidyl Transferase Biotyn-dUTP Nick-End Labeling (TUNEL) assay was performed to determine the number of apoptotic cells. The progesterone and estradiol concentrations secreted into the culture media by isolated GCs and follicles were also measured. Exposure to the androgens resulted in an increased number of apoptotic GCs both in vitro and in the organotypic model. Vinclozolin exposure increased and decreased the number of necrotic and apoptotic GCs, respectively. Furthermore, compared with control follicles, those exposed to testosterone, DHT, or Vnz displayed enhanced atresia, and coadministration of Vnz attenuated the promotive effect of these androgens on atresia. Estradiol secretion was stimulated by the combination of testosterone and Vnz, whereas exposure to Vnz alone reduced it. Progesterone production declined after the combined addition of androgens and the antiandrogen. In summary, Vnz caused massive necrosis of GCs in vitro and induced apoptosis of GCs in whole follicles. The androgens testosterone and DHT enhanced these effects. The results presented here suggest that selective destruction of porcine follicles is a serious consequence of exposure to Vnz, and may lead to premature ovarian failure in affected animals.