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 pituitary endocrine mechanisms involved in mammalian maturation: maternal and photoperiodic influences.

This review is designed to describe some pituitary mechanisms indispensable for growth and sexual maturation during the neuroendocrine adaptation of the female mammal to the extrauterine environment. We define the phases of postnatal development on the basis of secretory patterns of hormones. The infantile period is characterized by accelerated growth, and elevated secretion of growth hormone (GH) and follicle-stimulating hormone (FSH) in contrast to the diminished secretion of luteinizing hormone (LH). The transition from infancy to prepuberty generates the attenuation of somatic growth in non-primate mammals and the beginning of sexual maturation. The mechanisms of this transition involve the effects of weaning, which is associated with a rupture of the young-mother bond and, if abrupt, results in the stress of maternal deprivation. Maternal deprivation involves the stress-like endocrine response of pituitary and influences the mechanisms underlying the secretion of GH and FSH. An acute decrease in the secretion of GH and FSH at the initiation of prepuberty and an increase in the storage and pulsatile release of LH according to progressive prepubertal stages are pituitary endocrine features of post-infantile maturation. There are two factors important for timing of puberty, the maturity of gonadotroph population manifested by the adequate size of LH-containing cell subpopulation and the circumstances of an external environment optimal for reproductive functions in adults. Thus, the intrapituitary endocrine mechanisms of maturation have a psychosomatic nature during weaning and histomorphological nature during the postinfantile transition to puberty. In seasonal breeders, the endocrine timing of puberty has a circumannual seasonal nature.

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.

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.

Central estrogen-like effect of genistein on growth hormone secretion in the ewe.

The present study tested a hypothesis, whether plant-derived genistein influences the secretion of growth hormone (GH) in ewes, acting directly within the central nervous system (CNS). Starting six weeks after ovariectomy, ewes were infused intracerebroventricularly with genistein (n = 5) or 17beta-estradiol (n = 5), both in a total dose of 40 microg/400 microl/4 h, or with a vehicle (control, n = 5). All infusions were performed from 10:00 AM to 2:00 PM and blood samples were collected from 8:00 AM to 8:00 PM at 10-min intervals. Five genistein- and three vehicle-infused ewes were slaughtered the following morning. The plasma GH concentration was assayed by the radioimmunoassay method, and immunoreactivity of GH in the adenohypophysis was determined by immunohistochemistry. In genistein-infused ewes, mean plasma GH concentration was significantly higher during the whole period of infusion than the concomitant concentration in vehicle-infused ewes. However, examining data within group, GH secretion rose gradually, reaching a significant value during the second phase of genistein infusion. In 17beta-estradiol-infused animals, a significant increase in GH concentration was noted during the first two hours of the infusion, in comparison with vehicle-infused and also in comparison with genistein-infused ewes. Although a gradual increase in basic GH secretion continued in all treated groups during the afternoon and evening, mean plasma GH concentrations in genistein- and 17beta-estradiol-infused ewes were still significantly higher than in the vehicle-infused. The percentage of GH-positive cells in the adenohypophysis and the density of immunoreactive material in these cells decreased significantly in genistein-infused ewes, compared to the control, indicating diminished hormone storage. In conclusion, genistein as 17beta-estradiol, is an effective stimulator of GH secretion in ewes and may exert its effect at the level of the CNS.

The postnatal ontogeny of gonadotroph cells in the female sheep. Developmental patterns of synthesis, storage and release of gonadotrophic hormones.

The aim of this study was to determine the developmental changes in the synthesis, storage and release of luteinizing hormone (LH) and follicle-stimulating hormone (FSH) in the hypophyseal gonadotroph cells from infancy to peripuberty of ovine ontogeny. An examination has been made in 15 infantile (12-, 15-week-old) and juvenile (22-, 30-week-old) ovary-intact sheep. Histomorphological and functional changes in the adenohypophyseal population of gonadotrophs were assayed with hybridohistochemistry, immunohistochemistry and radioimmunoassay. The percentage of the adenohypophyseal area (PAA) occupied by gonadotrophs containing LHbeta-mRNA or FSHbeta-mRNA was highest (P < 0.05) in the 15-week-old sheep compared with the other stages. The gradual increase in the PAA occupied by immunoreactive (ir)-LHbeta-cells from the 12th to 30th week of age was observed (P < 0.05) and has been interpreted as the increase in the storage of LH. This histomorphological change was accompanied by the gradual increase in the LH pulse frequency from the 15th to 30th week of age (P < 0.05). The PAA occupied by ir-FSHbeta-cells was extremely high in the infantile sheep, and subsequently, low in the juvenile sheep (P < 0.05). Altogether, similar patterns of pretranslational synthesis of the LHbeta- and FSHbeta-subunit but clearly different storage patterns of gonadotrophins were observed. The postnatal development of gonadotrophins seems to be determined by the progressive increase in the storage of LH until peripuberty and by the acute decrease in the storage of FSH during the infantile/juvenile shift. These findings imply the different intrahypophyseal regulation of LH and FSH posttranscriptional processing during the period of transition between infancy and peripuberty in female sheep.

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.

Effects of maternal deprivation on the adrenocorticotrophic and gonadotrophic axes in the hypothalamo-pituitary unit of preweanling female sheep: the histomorphometric approach.

This study was designed to investigate the histochemical effects of maternal deprivation on the adrenocorticotrophic and gonadotrophic axes in the hypothalamo-pituitary unit of preweanling lambs. Twelve-week-old female lambs were divided into either the control (lambs reared under undisturbed maternal conditions; n=3) or the maternally deprived group (lambs separated for three days from their dams; n=3). The corticotrophin-releasing hormone (CRH) and gonadotrophin-releasing hormone (GnRH) in the median eminence and the adenohypophyseal adrenocorticotrophin (ACTH), gonadotrophins (LH and FSH) and mRNAs for their beta-subunits were investigated using the immunohistochemistry or hybridohistochemistry. In maternally deprived lambs, the percentage of the area occupied by immunoreactive (ir)-CRH nerve terminals was lower (P<0.05) and the percentage of the adenohypophyseal area (PAA) occupied by ir-ACTH cells was higher (P<0.05) compared with the control lambs. In the hypothalamo-gonadotrophic axis of maternally deprived lambs the percentage of area occupied by ir-GnRH nerve terminals was higher (P<0.05) and the PAA occupied by ir-FSHbeta cells was lower (P<0.05) in comparison with controls. The PAA occupied by gonadotrophs detected using hybridohistochemistry was higher (P<0.05) for LHbeta-mRNA in contrast to a lower (P<0.05) percentage for FSHbeta-mRNA in maternally deprived lambs compared with those staying with dams. In conclusion, maternal deprivation affected the accumulation of CRH and ACTH. The different and more striking alterations in FSH synthesis and storage in comparison with those concerning LH were observed in maternally deprived lambs. Thus, rupture of the preweanling young-mother social contact can affect the gonadotroph population activity, especially that relating to FSH-producing cells in the infantile female sheep.

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.

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.

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.

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.

Effects of intracerebroventricular infusion of genistein on gonadotrophin subunit mRNA and immunoreactivity of gonadotrophins and oestrogen receptor-alpha in the pituitary cells of the anoestrous ewe.

The present study was designed to demonstrate whether genistein, a synthetic phytoestrogen, infused into the third ventricle of the brain could affect the gonadotrophic cells regarding the presence of oestrogen receptor-alpha immunoreactivity and gonadotrophin subunit mRNA hybridising reaction in the ewe. Ewes (n=7), aged 2 years, in early anoestrous season were infused with Ringer-Locke solution (control, n=3) or 10 microg/100 microl/h of genistein (n=4) into the third ventricle over a 5 h period and slaughtered the following morning. Immunoreactivity of luteinizing hormone (LH), follicle-stimulating hormone (FSH) and oestrogen receptor-alpha (ERalpha) was determined in the adenohypophysis by immunohistochemistry using antibodies raised against LHbeta, FSHbeta, and ERalpha. Messenger RNA analyses were performed by non-isotope in situ hybridisation using sense and antisense riboprobes produced from beta subunits of LH and FSH cDNA clones. Computer image analysis was used to determine the percent of cells exhibiting immunohistochemical and/or hybridising reaction. It was found that in ewes infused with genistein, the percentage of LH-positive cells and the density of immunoreactive-LHbeta material decreased significantly (P

Intracerebroventricular infusion of neuropeptide Y up-regulates synthesis and accumulation of luteinizing hormone but not follicle stimulating hormone in the pituitary cells of prepubertal female lambs.

Neuropeptide Y (NPY) is a putative neuroregulator of the reproductive axis in the central nervous system. In this study we evaluated the effects of central infusion of exogenous NPY on the secretory activity of pituitary gonadotrophic cells in prepubertal lambs. Immature female Merino sheep (n=12) were infused of Ringer solution (control) or 50 microg of NPY to the third ventricle for 5 min and then slaughtered 3 h later. Immunoreactive luteinizing hormone (LH) and follicle stimulating hormone (FSH) cells were localised by immunohistochemistry using antibody raised against LHbeta and FSHbeta. Messenger RNA analyses were performed by in situ hybridisation using sense and antisense riboprobes produced from beta subunits of LH and FSH cDNA clones. The results were generated by computer image analysis to determine the area fraction occupied by immunoreactive and/or hybridising cells and optical density for immunostaining and hybridisation signal. LH in the blood plasma was determined by radioimmunoassay. It was found, that in the lambs infused with NPY the area fraction and optical density for immunoreactive LH cells and mRNA LHbeta-expressing cells increased significantly (P<0.001), compared to the vehicle-infused animals. The concentration of LH in the blood plasma did not differ between control and treated groups. The NPY infusions had no effect on the immunoreactivity of FSH cells or on expression of mRNA for FSHbeta. In conclusion we suggest that NPY may be an important component of mechanisms stimulating the synthesis and storage but not the release of LH in the pituitary gonadotrophs from prepubertal female sheep. In addition, this effect is specific for LH, no such effect was apparent on FSH.

Effect of central infusions of neuropeptide Y on GnRH/LH axis in ewes during the early anoestrous period.

Neuropeptide Y (NPY) is a putative mediator of many physiological processes in the central nervous system including reproductive functions. In this study we examined the effect of NPY on the GnRH/LH secretory activity in early anoestrous ewes. Crossbreed ewes one week (group 1w, n=7) and six weeks (group 6w, n=7) after the last oestrous cycle were infused with Ringer solution (control) or 50 microg of NPY to the third ventricle for 5 minutes. Blood samples were collected during the days of infusion over six hours at ten minute intervals and then the ewes were slaughtered and their brains fixed in situ. Immunoreactive (ir) GnRH in the median eminence and LH cells in the adenohypophysis were localised by immunohistochemistry technique. Data were generated using computer analysis to determine the optical density for immuno-staining and the proportion of ir LH cells. Plasma LH was determined by radioimmunoassay. It was found that investigated anoestral groups differed only in the optical densities of ir GnRH and ir LH, which were lower in group 6w compared to group 1w (p<0.001). LH concentrations and parameters of pulsatile LH secretion were similar in both anoestral groups. Acute NPY infusions induced in group 1w decreased both in ir GnRH and ir LH optical densities and in area fraction for ir LH cells (p<0.001) whilst it increased in plasma LH concentration (p<0.05) compared to vehicle infused animals. There was no changes in the secretory activity of the GnRH/LH axis following NPY infusion in group 6w. In conclusion, we suggest that NPY may be involved in the central regulation of reproductive function in ewes, however, the sensitivity of the GnRH/LH axis to NPY modulation declines throughout the early anoestrous period.

Influence of testicular hormones on the somatostatin-GH system during the growth promoted transition to puberty in sheep.

The aim of the present study was to investigate whether the growth promoted transition to puberty in lambs involved changes in the effects of testicular hormones on somatostatin in hypothalamic neurons and GH secretion. The study was performed in infants (9-week-old) testis-intact (TEI) and orchidectomized (ORCHX) at the sixth week of age, and pubertal lambs (16-week-old) TEI and ORCHX at the 12th week of age (n = 20). In TEI lambs, the changes included a pubertal increase in immunoreactive somatostatin in the periventricular nucleus and median eminence with simultaneous neuropeptide depletion in the median eminence, and a decrease in the percentage of the hypophyseal area (PA) occupied by GH-immunoreactive cells (P < 0.05). The mean concentration of GH in the peripheral blood plasma was greater (P < 0.001) in early infancy (5 wk), because of the greater (P < 0.0001) pulse amplitude, and then uniformly low until puberty. The postnatal increase in the body weight (BW) was prominent (P < 0.01) in middle-late infancy (9-12 wk) because of the large daily live-weight gain. After orchidectomy somatostatin was abundant. This effect on nerve terminals in the median eminence was greater (P < 0.01) in infancy and lesser (P < 0.05) in puberty. Conversely, the PA occupied by GH cells was lower in the ORCHX pubertal lambs compared to TEI lambs (P < 0.05). The GH concentration and pulse characteristics were less (P < 0.05) in the infantile and pubertal ORCHX lambs compared to the TEI lambs. However, this effect was weak (P < 0.05) until middle infancy because of no influence on the GH basal concentration, and strong (P < 0.001) after late infancy. The BW did not differ (P > 0.05) between TEI and ORCHX lambs. Findings suggest activation of GH negative autofeedback loop in middle infancy. Testicular factors may play an inhibitory role in regulating somatostatin accumulation and a stimulatory role in GH secretion until puberty. The start of puberty is related to an attenuation in the stimulatory role of gonadal factors in regulating somatostatin depletion in nerve terminals associated with an intensification of the stimulatory role of gonadal factors in regulating GH secretion. From a somatic perspective of growth rate, these mechanisms do not seem to be important. Thus, testicular factors modulate mechanisms within the somatostatin-GH system to integrate somatotropic and gonadotropic functions at the time of growth-promoted sexual maturation in sheep.

The influence of ovarian factors on the somatostatin-growth hormone system during the postnatal growth and sexual development in lambs.

The aim of the study was to elucidate the effects of ovarian hormones on somatostatin in the hypothalamic neurons and growth hormone (GH) secretion during the postnatal growth and development of sheep. The study was performed on 9-week-old (infantile) lambs that were ovary-intact (OVI) or ovariectomized (OVX) at 39 days of age, and on 16-week-old (juvenile) lambs that were OVI or OVX at 88 days of age. Hormones in neurons and somatotropic cells were assayed with immunohistochemistry and radioimmunoassay. Following ovariectomy, immunoreactive somatostatin was more abundant (p<0.05) in the hypothalamus of infantile lambs, whereas in juvenile lambs it was more abundant (p<0.05) in the periventricular nucleus but reduced (p<0.01) in the median eminence. In contrast to somatostatin in the hypothalamus, the content of immunoreactive GH in the hypophysis was less in OVX infantile lambs, but greater in OVX juvenile lambs (p<0.05). Basal blood serum concentrations of GH were greater (p<0.05) in OVX infantile lambs, whereas in OVX juvenile lambs, mean and basal concentrations of GH and amplitude of GH pulses were less than in OVI lambs (p<0.05). The postnatal increase in body weight was greatest in middle-late infancy (p<0.01). The body weight did not differ (p>0.05) between OVI and OVX lambs. In conclusion, ovarian factors may inhibit the GH secretion in infantile lambs but enhance the GH secretion in juvenile lambs. Transition to puberty, as related to the growth rate, appears to be due mainly to change in gonadal influence on the somatostatin neurosecretion. A stimulation of somatostatin output in the median eminence by gonadal factors in infancy is followed by a stimulation of somatostatin accumulation after infancy. Thus, ovarian factors modulate mechanisms within the somatotropic system of lambs to synchronize the somatic growth with sexual development.

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.

Effects of maternal deprivation on the somatotrophic axis and neuropeptide Y in the hypothalamus and pituitary in female lambs. The histomorphometric study.

The effects of maternal deprivation on the somatotrophic axis and neuropeptide Y (NPY) neuronal system in the hypothalamus of female lambs were evaluated. Twelve-week-old lambs were divided into two groups: the control (lambs stayed with mothers) and maternally deprived (MD; lambs separated for 3 days from mothers). The expression of immunoreactive (ir) somatostatin in the neurons of the periventricular nucleus (PEV) and in nerve terminals of the median eminence (ME), growth hormone (GH) in the adenohypophyseal cells and NPY in the neurons of the PEV and arcuate (ARC) nuclei of the hypothalamus using immunohistochemistry followed by the image analysis were estimated. Concentrations of GH in the blood plasma were determined by radioimmunoassay. The expression of ir somatostatin in the PEV and ME, ir NPY in the ARC and PEV, ir GH in adenohypophyseal cells, and blood plasma GH concentrations were greater (p<0.05) in MD than in the control lambs. In conclusion, MD affects the somatotrophic axis by enhancement of GH secretion via restraining of somatostatin output. The simultaneous increase of expression of hypothalamic ir NPY suggests NPY involvement in the regulation of psychoemotional stress through the somatotrophic axis in the female lambs.