Effects of acute stress on the patterns of LH secretion in the common marmoset (Callithrix jacchus)

1988 ◽  
Vol 118 (2) ◽  
pp. 259-264 ◽  
Author(s):  
K. T. O'Byrne ◽  
S. F. Lunn ◽  
A. F. Dixson
Keyword(s):  
Acute Stress ◽  
Mammalian Species ◽  
Physical Restraint ◽  
Plasma Concentrations ◽  
Social Rank ◽  
Pulse Amplitude ◽  
Common Marmoset ◽  
Pulse Frequency ◽  
Lh Releasing Hormone ◽  
Lh Secretion

ABSTRACT Stressful stimuli associated with aggressive encounters and low social rank may affect female fertility in a variety of mammalian species. In these experiments we examined the effects of aggressive encounters and physical restraint in a primate chair on the patterns of LH secretion in ovariectomized, oestrogen-primed female marmosets. Receipt of aggression from a female conspecific, followed by physical restraint for collection of blood samples (at 10-min intervals for 4 h), resulted in marked declines in LH concentrations during oestradiol-induced LH surges in five animals (from 112 ± 24 μg/l to 45±12 μg/l; group means ± s.e.m.; P<0·05). This was due to reductions in LH pulse amplitude rather than to changes in pulse frequency. Decreases in plasma concentrations of LH were reversed by treating females with exogenous LH-releasing hormone (LHRH). Cortisol treatment had no effect on LH levels during oestrogen-induced LH surges. Effects of aggressive encounters and physical restraint on plasma LH were not therefore due to reduced pituitary responsiveness to LHRH or to increased plasma concentrations of cortisol. In separate experiments it was found that physical restraint alone had no effect on plasma LH in habituated subjects, and that decreases in plasma LH after receipt of aggression only occurred if animals were subsequently placed in the restraint chair. A summation of stressful effects is therefore required to produce the fall in circulating LH. A summation of social and other environmental stressors may also underlie the reduced fertility seen in free-living animals. J. Endocr. (1988) 118, 259–264

scholarly journals Inhibition of the secretion of LH in ovariectomised pigs by sustained but not repeated acute elevation of cortisol in the absence but not the presence of oestradiol

1999 ◽  
Vol 163 (3) ◽  
pp. 477-486 ◽  
Author(s):  
AI Turner ◽  
PH Hemsworth ◽  
BJ Canny ◽  
AJ Tilbrook
Keyword(s):  
Acute Stress ◽  
Plasma Concentrations ◽  
Pulse Amplitude ◽  
Follicular Phase ◽  
Elevated Plasma ◽  
Acute Elevation ◽  
The Mean ◽  
The Impact ◽  
Lh Secretion ◽  
Prolonged Stress

Prolonged stress is known to impair reproduction. It has been proposed that reproduction will also be impaired when a severe acute stress occurs during a period of elevated plasma concentrations of oestradiol, such as during the follicular phase of the oestrous cycle. In this experiment, we hypothesised that repeated acute and sustained elevation of cortisol would suppress the secretion of LH in ovariectomised pigs and that these effects would be enhanced in the presence of oestradiol negative feedback. Cortisol (or vehicle) was administered 12 hourly to ovariectomised pigs (n=6/treatment) for 8 days in the absence of oestradiol treatment and for a further 8 days during treatment with oestradiol. Vehicle was administered to 'control' pigs, 10 or 20 mg cortisol was administered i.v. to pigs to produce 'repeated acute' elevation of cortisol and 250 mg cortisol was administered i.m. to pigs to give a 'sustained' elevation of cortisol. Both before and during treatment with oestradiol, plasma concentrations of LH were monitored on the day before treatment, on the 4th and 8th days of treatment and following an i.v. injection of GnRH at the end of the 8th day of treatment. The repeated acute elevation of cortisol did not impair any parameters of LH secretion (i.e. mean plasma concentrations of LH, pulse amplitude or frequency, pre-LH pulse nadir or the LH response to GnRH) in the absence or in the presence of oestradiol. In contrast, when the elevation of cortisol was sustained, the mean plasma concentrations of LH and the pre-LH pulse nadir were significantly (P<0.05) lower on the 8th day of treatment than on the day before treatment and on the 4th day of treatment. Nevertheless, no other parameters of LH secretion were affected and these effects only occurred in the absence (not in the presence) of oestradiol. In conclusion, cortisol needed to be elevated for more than 4 days to impair the secretion of LH, and oestradiol did not enhance the impact of cortisol on LH secretion in ovariectomised pigs.

scholarly journals Contrasting effects of different levels of food intake and adiposity on LH secretion and hypothalamic gene expression in sheep

2002 ◽  
Vol 175 (2) ◽  
pp. 383-393 ◽  
Author(s):  
ZA Archer ◽  
SM Rhind ◽  
PA Findlay ◽  
CE Kyle ◽  
L Thomas ◽  
...  
Keyword(s):  
Gene Expression ◽  
Food Intake ◽  
Leptin Receptor ◽  
In Situ Hybridisation ◽  
Plasma Concentrations ◽  
Pulse Amplitude ◽  
Pulse Frequency ◽  
Hypothalamic Arcuate Nucleus ◽  
Lh Secretion

Body reserves (long-term) and food intake (short-term) both contribute nutritional feedback to the hypothalamus. Reproductive neuroendocrine output (GnRH/LH) is stimulated by increased food intake and not by high adiposity in sheep, but it is unknown whether appetite-regulating hypothalamic neurons show this differential response. Castrated male sheep (Scottish Blackface) with oestradiol implants were studied in two 4 week experiments. In Experiment 1, sheep were fed to maintain the initial body condition (BC) score of 2.0+/-0.00 (lower BC (LBC), n=7) or 2.9+/-0.09 (higher BC (HBC), n=9), and liveweight of 43+/-1.1 and 59+/-1.6 kg respectively. LBC and HBC sheep had similar mean plasma LH concentration, pulse frequency and amplitude, but HBC animals had higher mean plasma concentrations of insulin (P<0.01), leptin (P<0.01) and glucose (P<0.01). Gene expression (measured by in situ hybridisation) in the hypothalamic arcuate nucleus (ARC) was higher in LBC than HBC sheep for neuropeptide Y (NPY; 486% of HBC, P<0.01), agouti-related peptide (AGRP; 467%, P<0.05) and leptin receptor (OB-Rb; 141%, P<0.05), but lower for cocaine- and amphetamine-regulated transcript (CART; 92%, P<0.05) and similar between groups for pro-opiomelanocortin (POMC). In Experiment 2, sheep with initial mean BC score 2.4+/-0.03 and liveweight 55+/-0.8 kg were fed a liveweight-maintenance ration (low intake, LI, n=7) while sheep with initial mean BC score 2.0+/-0.03 and liveweight 43+/-1.4 kg were fed freely so that BC score increased to 2.5+/-0.00 and liveweight increased to 54+/-1.4 kg (high intake, HI, n=9). Compared with LI, HI sheep had higher mean plasma LH (P<0.05), baseline LH (P<0.01) and pulse amplitude (P<0.01) and showed a trend towards higher pulse frequency. Although there were no differences in final mean plasma concentrations, there were significant increases over time in mean concentrations of insulin (P<0.001), leptin (P<0.05) and glucose (P<0.001) in HI sheep. Gene expression for AGRP in the ARC was higher in HI than LI animals (453% of LI; P<0.05), but expression levels were similar for NPY, OB-Rb, CART and POMC. Thus, the hypothalamus shows differential responses to steady-state adiposity as opposed to an increase in food intake, in terms of both reproductive neuroendocrine activity and hypothalamic appetite-regulating pathways. Differences in hypothalamic gene expression were largely consistent with contemporary levels of systemic leptin and insulin feedback; however, increased nutritional feedback was stimulatory to GnRH/LH whereas constant high feedback was not. The hypothalamus therefore has the ability to retain a nutritional memory that can influence subsequent responses.

scholarly journals Suppression of the secretion of luteinizing hormone due to isolation/restraint stress in gonadectomised rams and ewes is influenced by sex steroids

1999 ◽  
Vol 160 (3) ◽  
pp. 469-481 ◽  
Author(s):  
AJ Tilbrook ◽  
BJ Canny ◽  
MD Serapiglia ◽  
TJ Ambrose ◽  
IJ Clarke
Keyword(s):  
Sex Steroids ◽  
Restraint Stress ◽  
Testosterone Propionate ◽  
Plasma Concentrations ◽  
Pulse Amplitude ◽  
Pulse Frequency ◽  
Blood Samples ◽  
Release Device ◽  
Lh Secretion ◽  
Female Sheep

In this study we used an isolation/restraint stress to test the hypothesis that stress will affect the secretion of LH differently in gonadectomised rams and ewes treated with different combinations of sex steroids. Romney Marsh sheep were gonadectomised two weeks prior to these experiments. In the first experiment male and female sheep were treated with vehicle or different sex steroids for 7 days prior to the application of the isolation/restraint stress. Male sheep received either i.m. oil (control rams) or 6 mg testosterone propionate injections every 12 h. Female sheep were given empty s.c. implants (control ewes), or 2x1 cm s.c. implants containing oestradiol, or an intravaginal controlled internal drug release device containing 0.3 g progesterone, or the combination of oestradiol and progesterone. There were four animals in each group. On the day of application of the isolation/restraint stress, blood samples were collected every 10 min for 16 h for the subsequent measurement of plasma LH and cortisol concentrations. After 8 h the stress was applied for 4 h. Two weeks later, blood samples were collected for a further 16 h from the control rams and ewes, but on this day no stress was imposed. In the second experiment, separate control gonadectomised rams and ewes (n=4/group) were studied for 7 h on 3 consecutive days, when separate treatments were applied. On day 1, the animals received no treatment; on day 2, isolation/restraint stress was applied after 3 h; and on day 3, an i. v. injection of 2 microg/kg ACTH1-24 was given after 3 h. On each day, blood samples were collected every 10 min and the LH response to the i.v. injection of 500 ng GnRH administered after 5 h of sampling was measured. In Experiment 1, the secretion of LH was suppressed during isolation/restraint in all groups but the parameters of LH secretion (LH pulse frequency and amplitude) that were affected varied between groups. In control rams, LH pulse amplitude, and not frequency, was decreased during isolation/restraint whereas in rams treated with testosterone propionate the stressor reduced pulse frequency and not amplitude. In control ewes, isolation/restraint decreased LH pulse frequency but not amplitude. Isolation/restraint reduced both LH pulse frequency and amplitude in ewes treated with oestradiol, LH pulse frequency in ewes treated with progesterone and only LH pulse amplitude in ewes treated with both oestradiol and progesterone. There was no change in LH secretion during the day of no stress. Plasma concentrations of cortisol were higher during isolation/restraint than on the day of no stress. On the day of isolation/restraint maximal concentrations of cortisol were observed during the application of the stressor but there were no differences between groups in the magnitude of this response. In Experiment 2, isolation/restraint reduced the LH response to GnRH in rams but not ewes and ACTH reduced the LH response to GnRH both in rams and ewes. Our results show that the mechanism(s) by which isolation/restraint stress suppresses LH secretion in sheep is influenced by sex steroids. The predominance of particular sex steroids in the circulation may affect the extent to which stress inhibits the secretion of GnRH from the hypothalamus and/or the responsiveness of the pituitary gland to the actions of GnRH. There are also differences between the sexes in the effects of stress on LH secretion that are independent of the sex steroids.

Pulsatile LH secretion in streptozotocin-induced diabetes in the rat

1991 ◽  
Vol 131 (1) ◽  
pp. 49-55 ◽  
Author(s):  
Q. Dong ◽  
R. M. Lazarus ◽  
L. S. Wong ◽  
M. Vellios ◽  
D. J. Handelsman
Keyword(s):  
Weight Loss ◽  
Insulin Treatment ◽  
Pulse Generator ◽  
Latin Square ◽  
Pulse Amplitude ◽  
Pulse Frequency ◽  
Metabolic Effect ◽  
Male Rat ◽  
Free Access ◽  
Lh Secretion

ABSTRACT This study aimed to determine the effect of streptozotocin (STZ)-induced diabetes on pulsatile LH secretion in the mature male rat. LH pulse frequency was reduced by 56% and pulse amplitude by 54%, with a consequential decrease of 72% in mean LH levels 8 days after i.v. administration of STZ (55 mg/kg) to castrated Wistar rats compared with castrated non-diabetic controls. Twice daily insulin treatment completely reversed all parameters of pulsatile LH secretion to control values. Food-restricted non-diabetic controls, studied to distinguish the metabolic effect of diabetes from that of concurrent weight loss, demonstrated a 34% reduction in LH pulse frequency but no significant changes in LH pulse amplitude or mean LH levels compared with non-diabetic controls given free access to food. To distinguish whether the decreased LH pulse amplitude in diabetes was due to a reduction in either the quantity of hypothalamic gonadotrophin-releasing hormone (GnRH) released per secretory episode or to decreased pituitary responsiveness to GnRH, the responsiveness of the pituitary to exogenous GnRH (1–1000 ng/kg body weight) was tested in diabetic rats after castration, using a full Latin square experimental design. The net LH response (total area under response curve over 40 min following GnRH) was decreased by 33% (P=0·001) in diabetic compared with control rats. The decreased LH pulse frequency in STZ-induced diabetes therefore suggests that the metabolic effect of diabetes is to decelerate directly the firing rate of the hypothalamic GnRH pulse generator independent of testicular feed-back. These effects were fully reversed by insulin treatment and were only partly due to the associated weight loss. The impaired pituitary responsiveness to GnRH is at least partly involved in the reduction of LH pulse amplitude. Journal of Endocrinology (1991) 131, 49–55

scholarly journals Activation of Norepinephrine Neurons in the NTS (A2 population) is Sufficient to Suppress Pulsatile LH Secretion in Female Mice

2021 ◽  
Vol 5 (Supplement_1) ◽  
pp. A531-A531
Author(s):  
Richard B McCosh ◽  
Michael J Kreisman ◽  
Katherine Tian ◽  
Steven A Thomas ◽  
Kellie M Breen
Keyword(s):  
Acute Stress ◽  
Cell Activity ◽  
Metabolic Stress ◽  
Pulse Frequency ◽  
Designer Drugs ◽  
Transduction Efficiency ◽  
Neural Pathways ◽  
Wild Type ◽  
Female Mice ◽  
Lh Secretion

Abstract The overarching goal of this work is to identify neural pathways underlying inhibition of pulsatile luteinizing hormone (LH) secretion during stress. Stress-induced suppression of LH secretion is mediated, at least in part, by suppression of arcuate kisspeptin (ARCKiss1) neurons. The mechanisms by which acute stress suppresses ARCKiss1 cell activity are largely unknown; however, several lines of evidence support the hypothesis that A2 neurons (norepinephrine [NE] neurons in the nucleus of the solitary tract [NTS] of the brainstem) are involved. First, A2 cells are activated during several reactive stress paradigms. Second, NE administered into the paraventricular nucleus, which is innervated by A2 neurons, suppressed pulsatile LH secretion. Finally, ablation of brainstem NE neurons restored estrous cyclicity following chronic glucoprivation (chronic metabolic stress model). The present study employed chemogenetics to test the hypothesis that A2 neurons are sufficient to suppress pulsatile LH secretion in ovariectomized female dopamine beta-hydroxylase (DBH) Cre positive and negative (wild type) mice. Mice received bilateral injections of either a Cre-dependent stimulatory Designer Receptor Exclusively Activated by Designer Drugs (DREADD) virus (AAV1-DIO-hM3Dq-mCherry) or a control virus (AAV1-DIO-mCherry) into the NTS. Mice were randomly assigned to receive either clozapine N-oxide (CNO, specific DREADD agonist; 1mg/kg, i.p.) or saline and blood samples were collected at 6-min intervals for 60 min before and 90 min after injection. Two weeks later, mice received the alternate treatment in a cross-over design (n= 5-10/grp). During the pre-injection period, all mice had clear LH pulses (mean: 6.0 ± 0.2 ng/mL, pulses/60 min: 3.4 ± 1.5). In DBH Cre- (wild type) mice with hM3D virus and DBH Cre+ with mCherry virus (both control groups), neither CNO nor saline altered mean LH or LH pulse frequency. However, DBH Cre+ mice with hM3D virus had a 54% reduction in mean LH (p &lt; 0.05) and 59% reduction in pulse frequency (p &lt; 0.05) following CNO; neither LH metric was altered in response to saline. To assess transduction efficiency, fixed neural tissue was collected. In tissue analyzed thus far, DBH Cre+ mice have mCherry labeling in ~70% of DBH-immunoreactive neurons in the NTS and &gt;90% of mCherry neurons contained DBH immunoreactivity. Three DBH Cre+ mice with hM3D virus mice had no LH response to CNO and may represent missed viral injections, which will be determined when tissue is analyzed. These data demonstrate that activation of A2 neurons is sufficient to impair pulsatile LH secretion in female mice. Moreover, these data support the broad hypothesis that the A2 population of neurons is critical for modulating neuroendocrine function during stress and raises the possibility that A2 neurons directly or indirectly influence ARCKiss1 cell activity.

Non-responsiveness of serum gonadotropins and testosterone to pulsatile GnRH in hemochromatosis suggesting a pituitary defect

1993 ◽  
Vol 128 (4) ◽  
pp. 351-354 ◽  
Author(s):  
Lise Duranteau ◽  
Philippe Chanson ◽  
Joelle Blumberg-Tick ◽  
Guy Thomas ◽  
Sylvie Brailly ◽  
...  
Keyword(s):  
Single Pulse ◽  
Serum Testosterone ◽  
Pulse Amplitude ◽  
Pulse Frequency ◽  
Gonadotropin Secretion ◽  
Pulsatile Gnrh ◽  
Serum Lh ◽  
Before And After ◽  
Gnrh Therapy ◽  
Lh Secretion

We investigated the potential pituitary origin of gonadal insufficiency in hemochromatosis. Gonadotropin secretion was studied in seven patients with hemochromatosis and hypogonadism, before and after chronic pulsatile GnRH therapy. Pulsatile LH secretion was studied before (sampling every 10 min for 6 h) and after 15-30 days of chronic pulsatile GnRH therapy (10-12 μg per pulse). Prior to GnRH therapy, all the patients had low serum testosterone, FSH and LH levels. LH secretion was non-pulsatile in four patients, while a single pulse was detected in the remaining three. Chronic pulsatile GnRH administration did not increase serum testosterone levels; similarly, serum LH levels remained low: neither pulse frequency nor pulse amplitude was modified. We conclude that hypogonadism in hemochromatosis is due to pituitary lesions.

Androgen negative feedback during the early rise in LH secretion in bull calves

1995 ◽  
Vol 145 (2) ◽  
pp. 243-249 ◽  
Author(s):  
N C Rawlings ◽  
A C O Evans
Keyword(s):  
Sexual Maturity ◽  
Initial Step ◽  
Pulse Amplitude ◽  
Pulse Frequency ◽  
Serum Samples ◽  
Bull Calf ◽  
Bull Calves ◽  
Early Increase ◽  
Early Rise ◽  
Lh Secretion

Abstract A transient elevation in mean circulating concentrations of LH and FSH occurs in the young bull calf prior to 24 weeks of age. The functional significance of this is not clear. To see if changes in the ability of androgens to suppress gonadotrophin secretion were involved in the start of this early rise in LH secretion or the cessation of the early rise in LH and FSH secretion, bull calves were treated with flutamide (androgen receptor blocker; n=5; 9 mg flutamide/kg body weight in propylene glycol (i.m./s.c.) in three equal portions at 12-h intervals) at 8, 16 and 24 weeks of age and bled every 15 min for 12 h beginning after the third flutamide treatment; control bulls received vehicle at these times. Control bulls (n=5) were bled every 15 min for 12 h at 4, 8, 12, 16 and 24 weeks of age, and all bulls were bled weekly. Serum samples were assayed for concentrations of LH, FSH and testosterone. Based on weekly and intensive bleedings for control and flutamide-treated bulls, an early rise in LH (8–18 weeks of age) and FSH (4–24 weeks of age) secretion was seen in all bull calves (P<0·05). At 8 weeks of age flutamide treatment resulted in increased mean serum LH concentrations (P<0·05); at 16 weeks of age it resulted in increased basal and mean LH concentrations and increased LH pulse frequency (P<0·05); and at 24 weeks of age in increased mean LH concentrations, LH pulse frequency and amplitude (P<0·05) in comparison with control bulls. Flutamide treatment resulted in decreased FSH pulse amplitude at 8 weeks of age and increased mean serum concentrations of FSH and FSH pulse frequency at 24 weeks of age (P<0·05). In flutamide-treated bull calves testicular growth was greater and sexual maturity was reached earlier than in control bull calves (P<0·05). We conclude that a reduced suppression of LH secretion by androgens does not appear to be a major contributing factor to the onset of the early increase in LH secretion, but increased suppression may be involved in the termination of the early rise of both LH and FSH secretion in the bull calf. The early increase in LH secretion may be a critical initial step in postnatal reproductive development, since flutamide treatment increased early LH secretion and resulted in earlier attainment of sexual maturity. Journal of Endocrinology (1995) 145, 243–249

scholarly journals Evidence that Orphanin FQ Mediates Progesterone Negative Feedback in the Ewe

Endocrinology ◽  
2013 ◽  
Vol 154 (11) ◽  
pp. 4249-4258 ◽  
Author(s):  
Casey C Nestor ◽  
Lique M. Coolen ◽  
Gail L. Nesselrod ◽  
Miro Valent ◽  
John M. Connors ◽  
...  
Keyword(s):  
Estrogen Receptor ◽  
Negative Feedback ◽  
Luteal Phase ◽  
Arcuate Nucleus ◽  
Pulse Amplitude ◽  
Estrogen Receptor Α ◽  
Pulse Frequency ◽  
Orphanin Fq ◽  
High Degree ◽  
Lh Secretion

Orphanin FQ (OFQ), a member of the opioid family, is found in many areas of the hypothalamus and, when given centrally OFQ inhibits episodic LH secretion in rodents and sheep. Because GnRH neurons are devoid of the appropriate receptors to mediate steroid negative feedback directly, neurons that release OFQ may be involved. Using immunocytochemistry, we first determined that most OFQ neurons in the arcuate nucleus (ARC) and other hypothalamic regions of luteal phase ewes contained both estrogen receptor α and progesterone (P) receptor. Given a similar high degree of steroid receptor colocalization in other ARC subpopulations, we examined whether OFQ neurons of the ARC contained those other neuropeptides and neurotransmitters. OFQ did not colocalize with kisspeptin, tyrosine hydroxylase, or agouti-related peptide, but all ARC OFQ neurons coexpressed proopiomelanocortin. To test for a role for endogenous OFQ, we examined the effects of an OFQ receptor antagonist, [Nphe1,Arg14,Lys15]Nociceptin-NH2 (UFP-101) (30 nmol intracerebroventricular/h), on LH secretion in steroid-treated ewes in the breeding season and ovary-intact ewes in anestrus. Ovariectomized ewes with luteal phase concentrations of P and estradiol showed a significant increase in LH pulse frequency during infusion of UFP-101 (4.5 ± 0.5 pulses/6 h) compared with saline infusion (2.6 ± 0.4 pulses/6 h), whereas ewes implanted with only estradiol did not. Ovary-intact anestrous ewes displayed no significant differences in LH pulse amplitude or frequency during infusion of UFP-101. Therefore, we conclude that OFQ mediates, at least in part, the negative feedback action of P on GnRH/LH pulse frequency in sheep.

scholarly journals Gonadotropin-Inhibitory Hormone (GnIH) Secretion into the Ovine Hypophyseal Portal System

Endocrinology ◽  
2012 ◽  
Vol 153 (7) ◽  
pp. 3368-3375 ◽  
Author(s):  
Jeremy T. Smith ◽  
I. Ross Young ◽  
Johannes D. Veldhuis ◽  
Iain J. Clarke
Keyword(s):  
Pulse Amplitude ◽  
Pulse Frequency ◽  
Portal Blood ◽  
Portal System ◽  
Dorsomedial Nucleus ◽  
Cellular Targets ◽  
Nonbreeding Season ◽  
Peripheral Blood Plasma ◽  
Gonadotropin Inhibitory Hormone ◽  
Lh Secretion

GnIH was first identified in avian species, and there is now strong evidence that it is operant in mammals as an inhibitor of reproduction. Mammalian gonadotropin-inhibitory hormone (GnIH)-3 is encoded by the RFRP gene in neurons of the dorsomedial nucleus. These neurons project to the median eminence, predicting a role as a secreted neurohormone and regulation of the pituitary gonadotropes. To determine whether GnIH-3 is a secreted neurohormone, we measured its concentration in hypophyseal portal blood in ewes during the nonbreeding (anestrous) season and during the luteal and follicular phases of the estrous cycle in the breeding season. Paired portal and jugular blood samples were collected and plasma prepared for RIA using an ovine GnIH-3 antibody. Pulsatile GnIH-3 secretion was observed in the portal blood of all animals. Mean GnIH-3 pulse amplitude and pulse frequency was higher during the nonbreeding season. GnIH-3 was virtually undetectable in peripheral blood plasma. There was a lack of association between secretory pulses of GnIH-3 (portal) and LH (peripheral). To determine the role of secreted GnIH-3, we examined its effects on GnRH-stimulated LH secretion in hypothalamo-pituitary-disconnected ewes; a significant reduction in the LH response to GnRH was observed. Finally, to identify cellular targets in the pituitary, the expression of GnIH receptor [G protein-coupled receptor 147 (GPR147)] in fractions enriched for gonadotropes somatotropes, and lactotropes was examined; expression was observed in each cell type. These data show GnIH-3 is secreted into portal blood to act on pituitary gonadotropes, reducing the action of GnRH.

3β-Hydroxysteroid dehydrogenase inhibitor reduces ovarian steroid production but increases ovulation rate in the ewe: interactions with gonadotrophins and inhibin

1992 ◽  
Vol 134 (1) ◽  
pp. 115-125 ◽  
Author(s):  
R. Webb ◽  
G. Baxter ◽  
D. McBride ◽  
A. S. McNeilly
Keyword(s):  
Detrimental Effect ◽  
Pulse Amplitude ◽  
Hydroxysteroid Dehydrogenase ◽  
Pulse Frequency ◽  
Oestrous Cycle ◽  
Ovulation Rate ◽  
Corpora Lutea ◽  
Lh Secretion ◽  
Higher Doses

ABSTRACT Two experiments were carried out during the breeding season in ewes, first to investigate the effects of oral administration of a 3β-hydroxysteroid dehydrogenase (3β-HSD) inhibitor (epostane) on the number of corpora lutea, and secondly to investigate the mechanism through which epostane acts. In the first experiment Dorset Horn ewes were treated orally with 25, 50, 100 or 200 mg epostane twice daily between days 10 and 15 of the oestrous cycle. All doses of epostane resulted in an increase in the number of corpora lutea per ewe, although the response was curvilinear, with the 25 mg dose showing the largest response and the 200 mg group the smallest response. Although there was no difference between groups in the number of ewes showing oestrus, the higher doses of epostane had a detrimental effect on fertility. In the second experiment Welsh Mountain ewes were treated twice daily with 25 mg epostane from day 10 of the oestrous cycle and the ovaries were removed for analysis during either the luteal or the follicular phases. Treatment significantly increased the number of follicles >6 mm in diameter, but significantly reduced in-vitro follicular oestradiol and testosterone production. Despite a marked increase in peripheral inhibin concentrations there was no effect on in-vitro inhibin production. Epostane treatment also caused a significant reduction in peripheral FSH concentrations and an increase in mean LH concentration. The latter was due to an increase in LH pulse frequency during the luteal phase and LH pulse amplitude during the follicular phase. These results confirm that treatment of ewes with epostane orally has a significant effect on follicular steroidogenesis and causes a significant increase in the number of corpora lutea per ewe. This effect on ovulation rate is not via an increase in peripheral FSH concentration, but may be caused by a reduction in follicular steroid activity either directly on the ovary or via an alteration in the pattern of LH secretion. Journal of Endocrinology (1992) 134, 115–125

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