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1.
Endocrinology ; 154(11): 4249-58, 2013 Nov.
Article in English | MEDLINE | ID: mdl-23928375

ABSTRACT

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.


Subject(s)
Feedback, Physiological , Opioid Peptides/metabolism , Progesterone/metabolism , Sheep/physiology , Animals , Arcuate Nucleus of Hypothalamus/cytology , Arcuate Nucleus of Hypothalamus/metabolism , Estradiol/administration & dosage , Estradiol/pharmacology , Estrogen Receptor alpha/genetics , Estrogen Receptor alpha/metabolism , Estrus , Female , Hypothalamus/metabolism , Luteinizing Hormone/genetics , Luteinizing Hormone/metabolism , Neurons/metabolism , Opioid Peptides/administration & dosage , Opioid Peptides/genetics , Opioid Peptides/pharmacology , Ovariectomy , Progesterone/administration & dosage , Progesterone/pharmacology , Protein Transport , Receptors, Progesterone/metabolism , Nociceptin
2.
Endocrinology ; 153(6): 2756-65, 2012 Jun.
Article in English | MEDLINE | ID: mdl-22434087

ABSTRACT

Puberty onset in female sheep is marked by a decrease in estradiol-negative feedback, allowing for the increase in GnRH and LH pulses that heralds the first ovulation. Based on recent genetic studies in humans, two possible neuropeptides that could promote puberty onset are kisspeptin and neurokinin B (NKB). Our first experiment determined whether the NKB agonist, senktide, could stimulate LH secretion in prepubertal ewes. A second study used prepubertal and postpubertal ewes that were intact or ovariectomized (OVX) to test the hypothesis that expression of kisspeptin and NKB in the arcuate nucleus increased postpubertally. For comparison, kisspeptin and NKB expression in age-matched intact, and castrated males were also examined. In experiment 1, the percentage of ewes showing an LH pulse immediately after injection of senktide (100 µg, 60%; 500 µg, 100%) was greater than that for water-injected controls (experiment 1a, 25%; experiment 1b, 20%). In experiment 2, kisspeptin-positive cell numbers in the arcuate nucleus increased after puberty in intact females and were increased by OVX in prepubertal but not postpubertal ewes. Changes in kisspeptin cell numbers were paralleled by changes in kisspeptin-close contacts onto GnRH neurons in the medial preoptic area. NKB cell numbers did not differ significantly between intact prepubertal and postpubertal ewes but increased with OVX in both age groups. NKB fiber immunoreactivity was greater in postpubertal than in prepubertal intact ewes. In age-matched males, kisspeptin and NKB cell numbers increased with castration, but decreased with age. These results support the hypothesis that kisspeptin is a gatekeeper to female ovine puberty and raise the possibility that NKB may also play a role, albeit through different means.


Subject(s)
Kisspeptins/physiology , Neurokinin B/physiology , Sexual Maturation/physiology , Sheep/physiology , Animals , Arcuate Nucleus of Hypothalamus/cytology , Arcuate Nucleus of Hypothalamus/drug effects , Arcuate Nucleus of Hypothalamus/metabolism , Female , Gonadotropin-Releasing Hormone/antagonists & inhibitors , Gonadotropin-Releasing Hormone/metabolism , Immunohistochemistry , Kisspeptins/metabolism , Luteinizing Hormone/metabolism , Male , Neurokinin B/metabolism , Neurons/drug effects , Neurons/metabolism , Oligopeptides/pharmacology , Orchiectomy , Ovariectomy , Peptide Fragments/pharmacology , Receptors, Neurokinin-3/antagonists & inhibitors , Receptors, Neurokinin-3/metabolism , Sheep/metabolism , Substance P/analogs & derivatives , Substance P/pharmacology , Time Factors
3.
Endocrinology ; 152(9): 3451-60, 2011 Sep.
Article in English | MEDLINE | ID: mdl-21693677

ABSTRACT

There is now considerable evidence that dynorphin neurons mediate the negative feedback actions of progesterone to inhibit GnRH and LH pulse frequency, but the specific neurons have yet to be identified. In ewes, dynorphin neurons in the arcuate nucleus (ARC) and preoptic area (POA) are likely candidates based on colocalization with progesterone receptors. These studies tested the hypothesis that progesterone negative feedback occurs in either the ARC or POA by determining whether microimplants of progesterone into either site would inhibit LH pulse frequency (study 1) and whether microimplants of the progesterone receptor antagonist, RU486, would disrupt the inhibitory effects of peripheral progesterone (study 2). Both studies were done in ovariectomized (OVX) and estradiol-treated OVX ewes. In study 1, no inhibitory effects of progesterone were observed during treatment in either area. In study 2, microimplants of RU486 into the ARC disrupted the negative-feedback actions of peripheral progesterone treatments on LH pulse frequency in both OVX and OVX+estradiol ewes. In contrast, microimplants of RU486 into the POA had no effect on the ability of systemic progesterone to inhibit LH pulse frequency. We thus conclude that the ARC is one important site of progesterone-negative feedback in the ewe. These data, which are the first evidence on the neural sites in which progesterone inhibits GnRH pulse frequency in any species, are consistent with the hypothesis that ARC dynorphin neurons mediate this action of progesterone.


Subject(s)
Arcuate Nucleus of Hypothalamus/physiology , Feedback, Physiological/physiology , Neurons/physiology , Progesterone/physiology , Receptors, Progesterone/physiology , Animals , Arcuate Nucleus of Hypothalamus/drug effects , Feedback, Physiological/drug effects , Female , Hormone Antagonists/pharmacology , Luteinizing Hormone/blood , Mifepristone/pharmacology , Neurons/drug effects , Ovariectomy , Sheep
4.
Endocrinology ; 145(6): 2959-67, 2004 Jun.
Article in English | MEDLINE | ID: mdl-14988383

ABSTRACT

Endogenous opioid peptides (EOP) mediate progesterone-negative feedback in many species, but the specific EOP systems involved remain unresolved. We first addressed this question in sheep by determining the role of different EOP receptor subtypes in the medial basal hypothalamus (MBH) and preoptic area (POA). Local administration of EOP receptor antagonists to luteal phase ewes indicated that kappa-, but not micro- or delta-, receptors mediate the inhibition of LH secretion in the MBH. In contrast, both kappa- and micro-, but not delta-receptor, antagonists increased LH pulse frequency when placed in the POA. We next examined close appositions between dynorphin (kappa ligand) and beta-endorphin (micro ligand) containing varicosities and GnRH perikarya in luteal phase ewes using dual immunocytochemistry and light microscopy. Approximately 90% of MBH GnRH neurons had close associations by dynorphin-containing varicosities, but only 40-50% of GnRH perikarya elsewhere had such close associations. In contrast, the percentage of beta-endorphinergic varicosities close to GnRH neurons was similar among all regions. Electron microscopic analysis demonstrated both dynorphinergic synapses and beta-endorphinergic synapses onto GnRH perikarya. These and other data lead to the hypothesis that dynorphin neurons play a major role in progesterone-negative feedback in the ewe and that this inhibition may be exerted directly on GnRH perikarya within the MBH, whereas dynorphin and beta-endorphin input to GnRH neurons in the POA provide redundancy to this system or are involved in other actions of progesterone or estradiol in the control of the GnRH surge.


Subject(s)
Dynorphins/physiology , Feedback, Physiological , Gonadotropin-Releasing Hormone/metabolism , Hypothalamus, Middle/physiology , Neurons/physiology , Progesterone/physiology , Animals , Dynorphins/metabolism , Endorphins/physiology , Female , Hypothalamus, Middle/cytology , Luteinizing Hormone/antagonists & inhibitors , Preoptic Area/physiology , Receptors, Opioid, kappa/physiology , Receptors, Opioid, mu/physiology , Sheep , Synapses/physiology , beta-Endorphin/metabolism
5.
Biol Reprod ; 68(3): 846-52, 2003 Mar.
Article in English | MEDLINE | ID: mdl-12604634

ABSTRACT

In ewes, anestrus results from a reduction in LH pulsatility due to an increased sensitivity of the hypothalamic estradiol negative feedback system. Considerable evidence has implicated the A15 group of dopaminergic neurons in the retrochiasmatic area in this seasonally dependent estradiol effect. Moreover, estradiol administered to the retrochiasmatic area in ovariectomized anestrous ewes inhibits LH secretion. However, A15 neurons do not appear to contain the classical estrogen receptors (ERalpha). Therefore, we tested the hypothesis that beta-estrogen receptors mediate the action of estradiol in the retrochiasmatic area by comparing the effects of estradiol and genistein, a selective ERbeta agonist. We also examined whether there are seasonal changes in response of the retrochiasmatic area to these agonists and if these effects are mediated by dopamine. To test these hypotheses, ovariectomized ewes were implanted with bilateral guide cannulae targeting the retrochiasmatic area. Crystalline agonists were administered via microimplants inserted down the cannulae. Blood samples taken before and 4 days after microimplant insertion were analyzed for LH concentrations, pulse frequency, and amplitude. Genistein treatment produced no significant change in LH levels in either season. Estradiol treatment decreased both mean LH concentrations and pulse frequency in anestrous but not breeding-season ewes. Administration of the dopamine antagonist sulpiride to ovariectomized ewes with estradiol microimplants in the retrochiasmatic area returned LH pulse frequency to levels indistinguishable from controls. From these data, we hypothesize that estradiol acts on local ERalpha-containing neurons in this area to stimulate a dopaminergic pathway that inhibits LH secretion during anestrus.


Subject(s)
Anestrus/physiology , Estradiol/pharmacology , Hypothalamus, Middle/physiology , Receptors, Estrogen/physiology , Sheep/physiology , Anestrus/drug effects , Animals , Dopamine Antagonists/pharmacology , Estrogen Receptor alpha , Estrogen Receptor beta , Female , Genistein/pharmacology , Hypothalamus, Middle/drug effects , Luteinizing Hormone/pharmacology , Receptors, Estrogen/agonists , Seasons , Sulpiride/pharmacology
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