The role of QRFP43 in the secretory activity of the gonadotrophic axis in female sheep.

In mammals reproduction is regulated by many factors, among others by the peptides belonging to the RFamide peptide family. However, the knowledge concerning on the impact of recently identified member of this family (QRFP43) on the modulation of the gonadotrophic axis activity is still not fully understood and current research results are ambiguous. In the present study we tested the in vivo effect of QRFP43 on the secretory activity of the gonadotrophic axis at the hypothalamic-pituitary level in Polish Merino sheep. The animals (n = 48) were randomly divided into three experimental groups: controls receiving an icv infusion of Ringer-Locke solution, group receiving icv infusion of QRFP43 at 10 µg per day and 50 µg per day. All sheep received four 50 min icv infusions at 30 min intervals, on each of three consecutive days. Hypothalamic and pituitaries were collected and secured for further immunohistochemical and molecular biological analysis. In addition, during the experiment a blood samples have been collected for subsequent RIA determinations. QRFP43 was found to downregulate Kiss mRNA expression in the MBH and reduce the level of IR material in ME. This resulted in a reduction of GnRH IR material in the ME. QRFP43 increased plasma FSH levels while decreasing LH levels. Our findings indicate that QRFP43 inhibits the activity of the gonadotropic axis in the ovine at the level of the hypothalamus and may represent another neuromodulator of reproductive processes in animals.

Brain-derived neurotrophic factor (BDNF) affects the activity of the gonadotrophic axis in sheep.

This study aimed to examine the hypothesis that BDNF modulates the activity of the gonadotrophic axis in sheep. Central infusions of BDNF were administered to sexually mature Polish Merino sheep. The sheep were randomly divided into three groups: the control group received intracerebroventricular (ICV) infusions of the vehicle, the BDNF 10 group received ICV infusions of BDNF at 10 µg/480 µL/day, and the BDNF 60 group was infused with BDNF at 60 µg/480 µL/day. A series of four infusions on three consecutive days was performed. Blood samples were collected on days 0 and 3 of the infusions. Immediately after the experiment, all the sheep were slaughtered, and selected structures of the hypothalamus and pituitaries were collected for Real Time RT-qPCR analysis. The collected plasma samples, as well as parts of pituitaries were stored for radioimmunoassay analysis of LH and FSH. Central treatment with exogenous BDNF stimulated GnRH mRNA expression in the preoptic area, as well as GnRH-R mRNA in the pituitary. Furthermore, substantial changes in the KNDy mRNA expression in the mediobasal hypothalamus were observed after the ICV BDNF administration. Additionally, central BDNF infusion caused a decrease in LH concentration and a simultaneous increase in FSH concentration in peripheral blood. Neither pulse amplitude nor pulse frequency for any gonadotrophin was affected in both groups of sheep that received BDNF infusion. Our results revealed that exogenous BDNF affects GnRH and KNDy gene expression and changes in the LH and FSH pituitary cell secretory activities. These findings suggest that BDNF may participate in the mechanism modulating the activity of the gonadotrophic axis at the central level in female sheep.

Central obestatin administration affect the LH and FSH secretory activity in peripubertal sheep.

Obestatin - a 23 amino acid peptide is synthesized as another product of the ghrl gene and its synthesis occurs mainly in gastric mucosa cells. This hormone is involved in complex gut-brain neurohormonal networks, thereby can participates in the modulation of gonadotrophic axis activity. The aim of this study was to investigate the consequence of intracerebroventricular infusions of obestatin on LH and FSH pituitary cells secretory activity in peripubertal female sheep. Animals were randomly divided into two groups: the control group (n = 14) received intracerebroventricular infusions of Ringer-Lock solution (120 µL h-1), and the obestatin group (n = 14) was infused with obestatin (25 µg/120 µL h-1) diluted in Ringer-Lock solution. A series of four infusions was performed on three consecutive days. Blood samples were collected on day 0 and day 3. The sheep were slaughtered immediately after the end of the experiment. For molecular biological analysis, pituitaries from 7 sheep from each group (n = 7 + 7) were prepared and frozen in liquid nitrogen immediately after collection and then stored at -80 °C until Real Time RT-qPCR and RIA analyzes. For immunohistochemical analysis, pituitary tissues from the remaining animals (n = 7 + 7) was fixed in situ for further examination. Real-Time qPCR and immunohistochemistry analyses revealed substantial changes in the LH and FSH pituitary cells secretory activity in obestatin-infused sheep. Exogenous obestatin administration reduced LHß mRNA expression and increased the accumulation of immunoreactive LH in gonadotrophic cells of the adenohypophysis. These changes were accompanied by a decrease in the mean LH concentration in the peripheral blood resulting from the lower LH pulse amplitude. Moreover, an increase in both FSHß mRNA expression and FSH immunoreactivity and amount in pituitary cells were noted, while mean blood FSH concentration remained unchanged after obestatin treatment. The obtained results showed that exogenous obestatin affected LH secretory activity at the level of protein synthesis, accumulation and release as well as obestatin increase FSHß mRNA expression and accumulation of this hormone but at the same time have no effect on FSH release to blood. Thus, obestatin can participate in the neuroendocrine network, which modulates gonadotrophic axis activity in sheep.

Obestatin may affect the GnRH/KNDy gene network in sheep hypothalamus.

The effects of obestatin on gonadotrophic axis activity in ruminants have not yet been determined. The aim of this study was to investigate the effect of intracerebroventricular infusions of obestatin on the gonadotrophin-releasing hormone (GnRH) mRNA and protein expressions as well as on KNDy mRNA and kisspeptin (Kiss) peptide expressions in peripubertal female sheep. Animals were randomly divided into two groups: the control group received intracerebroventricular infusions of the vehicle, and the obestatin group was infused with obestatin (25 µg/120 µL h-1). The series of four 1-h infusions per day during three consecutive days were performed. After the end of the experiment parts of sheep brains were fixed in situ for immunohistochemical analysis, while the remaining brains were frozen for Real Time qPCR analysis. Substantial changes in the activity of the GnRH and KNDy gene network were observed in obestatin-infused sheep. In those animals an increase of GnRH mRNA expression in the preoptic area, a decrease of GnRH mRNA expression in the median eminence and an increase of GnRH immunoreactivity in the median eminence were found. Moreover, changes in the KNDy mRNA expression in mediobasal hypothalamus as well as decrease Kiss expression in arcuate nucleus and median eminence were observed. It was revealed that obestatin affects the GnRH and KNDy gene network as well as Kiss at the level of mRNA and protein expression. Thereby, it can be concluded that obestatin participates in the mechanism modulating gonadotrophic axis activity at the central level in peripubertal female sheep.

Obestatin stimulates the somatotrophic axis activity in sheep.

The effects of obestatin (an anorexigenic peripheral peptide) on somatotrophic axis activity in ruminants have not yet been determined. The aim of this study was to investigate the consequence of intracerebroventricular infusions of obestatin on the activity of the somatotrophic axis in peripubertal female sheep. Animals were randomly divided into two groups: control group received intracerebroventricular infusions of the vehicle, and the obestatin group was infused with obestatin (25 µg/120 µL h-1). The series of four hourly infusions on three consecutive days were performed. The blood samples were collected on day 0 and on day 3. Immediately after the end of experiment sheep were slaughtered. Parts of the brains were fixed in situ for further immunohistochemical analysis, while the remaining brains were frozen for Real Time RT-qPCR analysis. Substantial changes in the activity of the somatotrophic axis were observed in obestatin-infused sheep. In those animals obestatin evoked an increase in growth hormone-releasing hormone (GHRH) mRNA expression and a decrease in somatostatin mRNA expression in the anterior hypothalamic area. Moreover, a decrease in somatostatin immunoreactivity in the periventricular nucleus and an increase in somatostatin immunopositive fibers in the median eminence were noted. Changes in the GHRH and somatostatin activity are associated with an increase in growth hormone (GH) gene expression and in the amount of GH immunoreactive material stored in the somatotrophic pituitary cells. Consequently, an increase in GH concentration in the peripheral blood, due to an increase in the number of pulses was observed. It was revealed that obestatin affects the somatostatin/GHRH/GH system at the level of protein synthesis, accumulation and release. It is suggested that obestatin participates in the mechanism modulating somatotrophic axis activity at the central level by stimulating GH release through suppression of somatostatin output. Thereby, it can be concluded that obestatin may be involved in the modulation of growth processes in sheep.

Effects of intracerebroventricular infusions of ghrelin on secretion of follicle-stimulating hormone in peripubertal female sheep.

Reproduction depends on mechanisms responsible for the regulation of energy homeostasis and puberty is a developmental period when reproductive and somatic maturity are achieved. Ghrelin affects the activity of the hypothalamo-pituitary-gonadal axis under conditions of energy insufficiency. An in vivo model based on intracerebroventricular (i.c.v.) infusions was used to determine whether centrally administered acyl ghrelin affects transcriptional and translational activity of FSH in peripubertal lambs and whether ghrelin administration mimics the effects of short-term fasting. Standard-fed lambs received either Ringer-Lock (R-L) solution (120µL h-1) or ghrelin (120µL h-1, 100µg day-1). Animals experiencing a short-term (72h) fast were treated only with R-L solution. In each experimental group, i.c.v. infusions occurred for 3 consecutive days. Immunohistochemistry, in situ hybridisation and real-time reverse transcription quantitative polymerase chain reaction analyses revealed that short-term fasting, as well as exogenous acyl ghrelin administration to standard-fed peripubertal lambs, augmented FSHß mRNA expression and immunoreactive FSH accumulation. In addition to the effects of ghrelin on FSH synthesis in standard-fed animals, effects on gonadotrophin release were also observed. Acyl ghrelin increased the pulse amplitude for gonadotrophin release, which resulted in an elevation in mean serum FSH concentrations. In conclusion, the present data suggest that ghrelin participates in an endocrine network that modulates gonadotrophic activity in peripubertal female sheep.

The effect of short fasting on the hypothalamic neuronal system of kisspeptin in peripubertal female lambs.

Changes in the metabolic state induced by feed restrictions have a negative effect on the reproduction in mammals and result in the delayed puberty onset. Kisspeptin (kp) has been demonstrated as a pivotal regulator of GnRH/LH secretion during puberty. To elucidate the involvement of kp in the hypothalamic secretory function in altered metabolic state, the expression of kp protein was investigated in peripubertal female lambs after short fasting. The experiment was conducted on immature 32-weeks old Merino lambs fed standard diet (n=5) or fasted for 72h (n=5). The localization and expression of kp was evaluated using immunohistochemistry. Serum LH concentration was determined using radioimmunology. In the hypothalami of fasted sheep, the number of kp perikarya and the percent of density of neuronal kp network in the caudal part of the nucleus arcuatus were significantly less (P<0.001) than in standard fed lambs. The decrease of kp axons throughout areas extending from area preoptica to medial basal hypothalamus and in the median eminence in fasted lambs compared to standard fed ones was observed. Plasma LH concentrations and amplitude of pulses decreased (P<0.05) after 3 days of fasting compared to standard fed group. The decrease of the kp expression is likely due to diminished kp protein synthesis, and its storage in the neurons. In summary, the data are the first to demonstrate interactions between metabolic status and kp neuronal system in lambs before puberty, and suggest that kp neurons may represent a link between metabolic signals and central control of reproduction.

The effect of intracerebroventricular infusions of ghrelin or short fasting on the gene expression and immunoreactivity of neuropeptide Y in the hypothalamic neurons in prepubertal female lambs: a morphofunctional study.

The role of exogenous ghrelin in the regulation of neuropeptide Y (NPY) neuronal system in the hypothalamus of intact lambs has not been yet determined. The aim of present study was to investigate the effects of intracerebroventricular infusion of ghrelin or short fasting on the secretory activity of the NPY neurons in the hypothalamus of prepubertal female sheep. Animals (n=30) were randomly divided into three groups, two groups were fed standard diet and one group was fasted for 72h. One group fed standard diet and fasted group were infused to the 3rd ventricle of the brain with vehicle, while the remaining group fed standard diet was infused with ghrelin (25µg/120µl/h) for 6h during three consecutive days. Immediately after the treatment, tissues were collected. Parts of the brains were fixed in situ for further immunohistochemical analysis, and remaining parts were frozen for RT-PCR analysis. Both, fasting and ghrelin infusion elicited the same kind of changes in the mRNA and intra-neuronal levels of the NPY hypothalamic neurons. Namely, the expression of NPY mRNA in the medial basal hypothalamus and immunoreactivity of NPY in the arcuate and periventricular nuclei increased in fasted and standard fed with ghrelin's infusion groups compared to standard fed sheep (P<0.05). These data demonstrate that ghrelin takes part in the mechanisms linking the nutritional status with an activity of the hypothalamic NPY at the level of the central nervous system by stimulating NPY secretion in sheep.

The effect of intracerebroventricular infusions of ghrelin and/or short fasting on the gene expression and immunoreactivity of somatostatin in the hypothalamic neurons and on pituitary growth hormone in prepubertal female lambs. Morphological arguments.

The effect of exogenous ghrelin on somatostatin distribution in the ruminant's hypothalamus has not been yet determined. The aim of the present study was to investigate the consequence of central infusion of ghrelin and/or short fasting on the secretory activity of the somatostatin/GH system in prepubertal female sheep. Animals were randomly divided into three groups, two standard fed and one fasted for 72 h. One standard group and one fasted group were infused icv with vehicle, while the remaining standard group was infused with ghrelin (25 µl/120 µl/h). Infusions were performed for 6 h during three consecutive days; blood samples were collected during the "day 0" (before the infusion) and "day 3" Immediately after the experiment the sheep were slaughtered. Parts of the brains were fixed in situ for further immunohistochemical analysis The remaining brains were frozen for RT-PCR analysis. Fasting and ghrelin infusion elicited the same kind of changes in the secretory activity of the somatostatin/GH system compared to standard fed sheep. The expression of somatostatin mRNA and ir somatostatin in the PEV nucleus and ir stores in the median eminence increased in both these groups compared to standard fed sheep (P<0.001). The population of ir GH pituitary cells decreased (P<0.001), the mean GH plasma concentrations increased in all fasted and ghrelin infused animals between day 0 and day 3 of infusions (P<0.05) compared to the standard fed group. It can be suggested that ghrelin takes part in the mechanisms linking the nutritional status of an organism with an activity of the somatotrophic axis on the level of the CNS by stimulating GH release through suppression of the somatostatin output.

Influence of gonadal hormones on endocrine activity of gonadotroph cells in the adenohypophysis of male lambs during the postnatal transition to puberty.

Using histomorphological and functional criteria we describe the feedback mechanisms which could play a role in the regulation of the gonadotrophic axis during the postnatal transition to puberty in male lambs. The working hypothesis was that the testicular factors change the peripheral levels of luteinizing hormone (LH) and follicle-stimulating hormone (FSH) by influencing the synthesis rate and storage of LH and FSH in adenohypophyseal gonadotroph cells of weanling and weaned pubertal lambs. The examination was made in (i) 9-week-old infantiles, suckling lambs undergoing weaning, testis-intact (TEI) and orchidectomised (ORCHX) at the 6th week of age, and (ii) 16-week-old pubertal lambs TEI and ORCHX at the 12th week of age (n=5 per group). Changes in gonadotrophs were assayed with hybridohistochemistry, immunohistochemistry and radioimmunoassay. The percentage of the adenohypophyseal area (PA) occupied by cells containing LHß-mRNA and FSHß-mRNA and peripheral levels of both gonadotrophins were lower (P<0.01) in the 16-week-old TEI lambs in comparison with the 9-week-old ones. The PA occupied by cells immunoreactive for LHß was lower (P<0.01), whereas in the case of FSH was greater (P<0.001) in the 16-week-old lambs. After orchidectomy the PA occupied by gonadotrophs stained for LHß-mRNA was greater (P<0.01) in 16-week-old lambs. The PA occupied by LHß-labelled cells was lower (P<0.05) in the 9-week-old ORCHX lambs, whereas in 16-week-old ones was higher (P<0.05) in comparison with the TEI lambs. The circulating LH was greater (P<0.01) in the ORCHX 9- and 16-week-old lambs compared to the TEI ones. The PA occupied by cells containing FSHß-mRNA and the plasma FSH concentration were greater (P<0.001) after orchidectomy in lambs from both age stages. The PA occupied by FSHß-labelled cells was greater (P<0.01) in the 9-week-old ORCHX lambs, whereas in 16-week-old ones was lower (P<0.05) compared to the lambs from TEI groups. In conclusion, in infantile lambs testicular factors may play inhibitory role in regulating FSH synthesis rate, storage and release in contrast to the stimulatory role in regulating LH storage reflected by the inhibitory role in regulating LH release. In lambs at the beginning of puberty, testicular factors may play inhibitory role in regulating LH synthesis rate, storage and release in contrast to the stimulatory role in regulating FSH storage reflected by the inhibitory role in regulating FSH synthesis rate and release. The effects of testicular hormones on the gonadotrophin storage, i.e. releasable pools in adenohypophyseal cells, are specific for both LH and FSH in lambs during the postnatal transition to puberty. Thus, the initiation of puberty in male sheep is a function of change of the inhibitory role of gonadal factors in regulating FSH storage to the stimulatory one and the stimulatory role of gonadal factors in regulating LH storage to the inhibitory one.

Hypothalamic arcuate neuropeptide Y-neurons decrease periventricular somatostatin-neuronal activity before puberty in the female lamb: morphological arguments.

It is assumed that hypothalamic somatostatin plays a dominant role in the regulation of growth of developing lambs. On the other side, neuropeptide Y (NPY) neurons of the arcuate (ARC) nucleus are potentially involved in the control of gonadotrophins in prepubertal lambs and also of growth hormone (GH) secretion in adults. This study therefore investigated whether the transition from the prepubertal to the peripubertal period is accompanied by changes in NPY-ir and NPY mRNA content in neurons of the ARC nucleus and their putative projections to somatostatin neurons in both the ARC and periventricular (PEV) nuclei. The hypothalami of prepubertal (17-week-old) and peripubertal (32-week-old) female lambs were compared using single and double-labelling immunohistochemistry, and hybridisation in situ for NPY. Single-labelling for NPY mRNA and NPY-ir was quantified by image analysis using a light microscope and expressed as the percent area stained and/or the integral density of the reaction. Double-labelling for NPY-somatostatin relationships was analysed by confocal microscopy. Our data suggest that there are no detectable changes in NPY-ir in the PEV nucleus in the period leading up to puberty, whereas both the distributional area and intensity of NPY-labelling in the ARC are significantly higher in peripubertal compared to prepubertal sheep. In contrast, NPY mRNA levels are higher in prepubertal than in peripubertal ewes in the ARC nucleus. Confocal microscopy suggests the existence of NPY-somatostatin axo-somatic contacts in both PEV and ARC nuclei. In the PEV nucleus, the number of close appositions between NPY-ir fibres and somatostatin-ir perikarya is higher in prepubertal than in peripubertal ewes, but in the ARC no such difference was observed. In conclusion, our observations suggest that there is decreased activity of the NPY neurons of the ARC nucleus closely related to somatostatin neurons in the PEV nucleus at the onset of puberty. The withdrawal of this NPY effect may allow a higher release of somatostatin, which consequently inhibits GH secretion and stops growth. Both peptides are involved in the transmission of signals leading to stop growth at puberty.

Effect of intracerebroventricular infusion of leptin on the secretory activity of the GnRH/LH axis in fasted prepubertal lambs.

Leptin is believed to link metabolic status to reproductive processes. The aim of the present study was to investigate the effect of exogenous leptin on the secretory activity of GnRH/LH system in acutely undernourished prepubertal, female lambs. Merino lambs were randomly divided into four groups, two standard-fed and two fasted for 72 h. One standard and one fasted groups were infused intracerebroventricularly (i.c.v.) with the vehicle; the remaining standard and fasted groups were infused with leptin (25 microg/120 microl/h). Leptin was administered in series of four 1-h infusions at 30-min intervals for 3 consecutive days from 08:30 to 14:00 h. Blood samples were collected on day 0 (before infusions) and on day 3 every 10 min over a 6-h period. Immediately after the experiment, the sheep were slaughtered and brains fixed in situ. Hypothalamic and pituitary tissues were prepared for further immunohistochemical and hybridization in situ analysis. In fasted sheep, increased GnRH levels in the median eminence (P<0.001) and LH beta levels in the pituitary cells (P<0.001) plus decreased LH beta mRNA and LH pulsatility in blood plasma were observed (P<0.05). In leptin-infused fasted sheep, GnRH levels in the median eminence decreased (P<0.001), LH beta mRNA hybridization signal increased, LH beta levels decreased in the pituitary cells (P<0.001) and LH pulsatility increased (P<0.05) in the blood plasma. These results indicate that, in prepubertal sheep, the GnRH/LH axis is sensitive to the fasting signal, that influence of which can be reversed by leptin. Leptin cancels out the suppressing effect of fasting on LH secretion by augmentation of GnRH.

Prepubertal changes in the synthesis, storage and release of the somatostatin in the hypothalamus of female lambs: a morphofunctional study.

It is assumed that hypothalamic somatostatin plays a role in the preovulatory phase of the oestrous cycle in sheep. The aim of the study was to investigate the processes of synthesis, storage and release of somatostatin in hypothalamic neurons, in immature female lambs, in the period approaching to puberty. Experiments were carried out on 10 prepubertal (17 weeks old) and 10 peripubertal (32 weeks old) ovary-intact lambs. Morphofunctional changes in the somatostatin neurons were assayed with immunohistochemistry and hybridisation in situ. Computer image analysis was used to determine the density of both reactions and the percentage of the area exhibiting immunohistochemical staining. These parameters express the content of immunoreactive (ir) somatostatin and expression of mRNA for pre-pro-somatostatin (PPS). Two populations of ir somatostatin perikarya were localized in the hypothalamus: a very large number of perikarya in the periventricular (PEV) nucleus, and single cell bodies in the arcuate (ARC) nucleus. Only ir somatostatin fibres, but no perikarya were seen in the ventromedial (VM) nucleus and preoptic area. The analysis of mRNA PPS showed perikarya filled with silver grains localized in the PEV, ARC and VM. There were differences in the content of ir somatostatin and the intensity of the PPS mRNA signal between the two periods investigated. In the median eminence, the content of ir somatostatin in the terminals decreased in the peripubertal compared to the prepubertal group (P<0.001). In the PEV, the content of ir somatostatin in the perikarya and the expression of PPS mRNA decreased in the peripubertal compared to the prepubertal group (P<0.001). In the ARC, the content of ir somatostatin in the perikarya increased (P<0.001), but expression of PPS mRNA decreased (P<0.001) in the peripubertal compared to the prepubertal group. There were no differences in the expression of PPS mRNA in the VM. We concluded, that the different secretory activity of the two hypothalamic populations of somatostatin neurons can be related to their different physiological functions in the prepubertal period of female lambs.

Prepubertal changes in the synthesis, storage and release of growth hormone and luteinising hormone and in the immunoreactivity of oestrogen receptor-alpha in lamb pituitary cells. A morphofunctional study.

The present study was designed to determine the changes in the synthesis, storage and release of luteinising hormone (LH) and growth hormone (GH) in the hypophyseal cells by investigating the presence of oestrogen receptor-alpha (ERalpha) in developing prepubertal female lambs. The experiment was carried out on 14 prepubertal (17-week-old) and 14 peripubertal (32-week-old) ovary-intact lambs. Morphofunctional changes in the cells of the adenohypophyseal population were assayed with immunohistochemistry (IH), in situ hybridisation (ISH), Real-time PCR and radioimmunoassay (RIA). Blood samples (n=14) were taken every 2 weeks from 17 to 32 weeks of age for estimation of GH and LH by RIA. Computer image analysis was used to determine the percent of cells exhibiting IH and/or ISH reaction. The percentage of cells stained for LHbeta and GH increased for both LH- and GH-producing cells and were higher (P<0.001) in the peripubertal than prepubertal group. The percentage of mRNA LHbeta-expressing cells decreased and were lower for the peripubertal (P<0.001) than prepubertal group. The GH mRNA in pituitaries of prepubertal lambs was higher in comparison to peripubertal ones (P<0.001). The percentage of ERalpha positive cells increased significantly (P<0.001) in peripubertal compared to prepubertal lambs and this increase was significant (P<0.001) in both LH- and GH-producing cells. Plasma LH concentrations increased from 27 weeks of age, while GH concentrations gradually decreased from 17 weeks of age (P<0.05). The histomorphological changes in the LH- and GH-producing cells reflect the increasing pattern of the regulation of secretory processes of these hormones and an escalating regulatory role of oestrogen in the physiology of these cells during the prepubertal period. These results support the involvement of both hormones in the events leading up to puberty.

Aspects of central and peripheral regulation of reproduction in mammals.

To increase our knowledge concerning the central and peripheral regulation of reproduction in mammals a series of studies were performed. In the first experiment, we found that exogenous leptin altered the activity of the hypothalmo-pituitary-gonadotropic axis in sheep during insufficient feeding. The action of leptin appears to be mediated by changes in GnRH and LH secretion as well as NPY immunoreactivity. The aim of the second experiment was to investigate the role of the adipoinsular axis hormones during pregnancy in rats. The elevated levels of plasma leptin as wells as the increased mRNAs expression of the leptin receptors in placenta indicate the significant role of the hormone in fetal growth and development. On the other hand, a decrease in leptin receptors mRNA content within hypothalamus and pituitary together with unchanged plasma insulin level may suggest that during rat pregnancy leptin resistance was developed in the hypothalamus, pituitary and pancreatic islets. The third experiment was carried out to establish the role of opioids and glucocorticoids in the regulation of the hypothalmo-pituitary-gonadal axis in ewes during natural or synchronized estrous cycle. Prolonged treatment with progesterone resulted in significant changes in plasma levels of Met-enkephalin, cortisol and steroids and altered the expression of proenkephalin mRNA in the hypothalamus, pituitary, ovary and adrenals. Injections of Met-enkephalin or naltrexone (blocker of opioid receptors) modulated the progesterone influence in tested tissues. The data clearly suggest that opioids are involved in the regulation of the estrous cycle at the hypothalamo-pituitary-gonadal/adrenal axes.

The effect of intracerebroventricular infusions of leptin on the immunoreactivity of neuropeptide Y and gonadotrophin releasing hormone neurons in the hypothalamus of prepubertal sheep in conditions of short fasting.

In the study we evaluated the effects of infusion of exogenous leptin to the third ventricle of the brain on the expression of immunoreactive (ir) neuropeptide Y (NPY) neurons in the hypothalamus and ir gonadotrophin releasing hormone (GnRH) nerve terminals in the median eminence of prepubertal lambs in the conditions of short fasting. Merino female sheep (n=16) were randomly divided into four groups, two fed with standard feeds and two fasted for 72 h. One standard and one fasted groups were infused with Ringer saline (controls), remaining standard and fasted groups with leptin (25 microg/120 microl/h), for 4 h during three consecutive days, and then slaughtered. Ir NPY and ir GnRH were localized by immunohistochemistry using specific polyclonal antibodies. Detection of both hormones was followed by the image analysis and expressed as the percent area stained and integral density of immunostaining. In the hypothalami from all groups the ir NPY perikarya and varicose nerve fibers were localized in three distinct sub-areas, in the arcuate (ARC), paraventricular and periventricular nuclei. In fasted sheep the percent area and integral density for immunoreactivity of NPY increased significantly (P<0.001) in three sub-areas compared to the standard-fed animals. Leptin infusion lowered the both parameters (P<0.001) but solely in the ARC NPY population of fasted sheep. The percent area and integral density of immunostaining for ir GnRH in fasted sheep revealed the augmentation (P<0.001) compared to standard-fed sheep. Leptin infusions diminished (P<0.001) both parameters in fasted, without effects in standard-fed lambs. In conclusion, the enhanced by fasting immunoreactivity of the ARC NPY perikarya and varicose nerve fibers and restrained immunoreaction of GnRH terminals in the median eminence were reversed by exogenous leptin. It is suggested that leptin can affect GnRH release via ARC NPY neurons in conditions of deficit of nutrients in prepubertal, female lambs.

Expression of NPY-immunoreactive neurons in the hypothalamus of the cycling ewe.

The purpose of the study was to localise neuropeptide Y (NPY) immunoreactive (ir) neurons in the hypothalamus during two phases of the oestrous cycle in the ewe. Hypothalamic tissue was collected from Polish Merino ewes (n=8) in the follicular (15th day) and preovulatory (17th day) phases of the oestrous cycle. NPY-ir neurons were detected in the hypothalamus using immuohistochemistry followed by image analysis; positive staining was expressed as the percentage of stained area and optical density. Two populations of the NPY-positive neurons were detected and evaluated in the infundibular and periventricular nuclei of the hypothalamus. The population of NPY-ir neurons located in the infundibular nucleus exhibited a prominent expression of NPY immunoreactivity in the perikarya and fibres only during the preovulatory phase. Both, percent area and the optical density of NPY immunostaining measured in this area were higher (P < 0.01) in the preovulatory than in the follicular phase. Another population of NPY-ir neurons was localised in the periventricular nucleus and did not show any changes during the two phases of the cycle. The present study suggests that NPY-ir neurons present in the infundibular nucleus can play a role in the preovulatory GnRH discharge from the median eminence.

Neuropeptide Y--a neuromodulatory link between nutrition and reproduction at the central nervous system level.

The deficiency of nutrients in mammals' diets results in impaired gonadal function, especially in restraining of processes leading to puberty and disturbances in the course of the estrous cycle. The decreased GnRH/LH pulsatile secretion has been proposed as the most important etiological factor for nutritionally induced suppression of pituitary-ovarian functions. Although the relationship between nutrition and reproduction has been extensively investigated, little information exists about the exact mechanism connecting these two processes. One of the candidates is neuropeptide Y (NPY), synthesized in the hypothalamus. In the present paper, we reviewed the distribution of the NPY neurons, its receptors, contacts with other hypothalamic centers and its orexigenic properties. Next, we discussed the participation of NPY in the regulation of GnRH/LH secretion and underlined its dual role in the control of the reproductive system and nutritional state of organism. This information confirmed the hypothesis that NPY can be a candidate for a link between nutrition and reproduction at the level of the central nervous system.

Does prolactin influence the hypothalamo-pituitary GnRH-LH system in preovulatory-phase ewes?

The effects of prolonged infusions of prolactin (PRL) into the third ventricle of the brain of cycling ewes on the secretory activity of hypothalamic GnRH neurons and pituitary LH cells in the pars distalis during the proestrous day were studied. Mature Blackhead ewes were infused with vehicle (control, n=5) or with prolactin (200 mug/day, n=5) during 4 consecutive days prior to the next spontaneous ovulation. The dose of PRL was infused each day in 4 series of 50 mug/100 mul/h at 30-min. intervals, from 8.30 to 14.00 h. The animals were slaughtered on the 16th (proestrous) day of the estrous cycle immediately after the last infusion and their brains were fixed in situ. Plasma samples were collected for 6 h at 10 min. intervals, on days 12 (before the infusions) and 16 of the cycle. The distribution pattern, number and morphology of GnRH neurons in vehicle- and PRL-infused ewes were found to be similar and typical for the proestrous phase of the cycle. The immunoreactive (ir) GnRH stores in the median eminence were high and similar in both groups. There were no differences between control and PRL-treated ewes in the number or features of irLH cells. The area fraction and optical density for irLH cells and mRNA LHbeta-expressing cells did not differ between control and experimental groups. Irrespective of the kind of infusion, changes in LH secretion during the estrous cycle were similar in control and PRL-infused ewes. Mean plasma LH concentrations were higher (p<0.001) on day 16 compared to day 12 of the cycle. There were no differences in plasma LH concentrations or in the parameters of pulsatile LH secretion between groups. In conclusion, repeated, several-hour-long infusions of PRL into the CNS prior to the next spontaneous ovulation in ewes has no direct effect on the secretory activity of GnRH neurons, and/or the synthesis, accumulation, or tonic release of LH from the pituitary gonadotrophs.

Effects of intracerebroventricular infusion of genistein on the secretory activity of the GnRH/LH axis in ovariectomized ewes.

Phytoestrogens, plant derived estrogen like-compounds exert numerous effects on the reproductive functions of animals. The present study was designed to demonstrate if exogenous genistein infused during the breeding season into the third ventricle of the brain of ovariectomized ewes could affect the secretory activity of the GnRH/LH axis. Two-year-old ovariectomized ewes (n=8) were infused with vehicle (control, n=3) or genistein (10 microg/100 microl/h, n=5) into the third ventricle. The infusions were done from 10.00 to 14.00 h and blood samples collection was performed this day up to 20.00 h and next day from 8.00 to 10.00 h. The animals were slaughtered, thereafter. Immunoreactive (IR) GnRH neurons in the hypothalamus and LH cells in the adenohypophysis were localized by immunohistochemistry. Messenger RNA analyses were performed by nonisotope in situ hybridization using sense and anti-sense riboprobes produced from beta subunits of LH cDNA clones. Plasma LH concentrations were measured by radioimmunoassay. Immunohistochemical analysis revealed that genistein infusion affected the morphology of GnRH neurons evoking a visualization of long axons in the GnRH perikarya and visibly diminished IR GnRH stores in the median eminence. The number of IR LH cells and IR material stored in the adenohypophyses increased in genistein-infused animals, which was confirmed by statistical analysis (P<0.001). The in situ hybridization analyses showed in these ewes the increase of mRNA LHbeta hybridization signal. The changes in LH release in response to genistein infusion had a biphasic character: it decreased within 6 h after infusion and increased 24 h later. Mean concentration of LH and amplitude of pulses measured from the beginning of infusion up to end of the experiment were significantly higher (P<0.05) in genistein-infused ewes compared to vehicle-treatment. In conclusion, our data show that genistein, a phytoestrogen, may effectively modulate GnRH and LH secretion in OVX ewes by acting directly on the CNS. The biphasic character of the LH response is similar to that of estradiol during the breeding season in the ewes.