Regulation of Luteinizing Hormone and Catecholamine Release

These studies tested the interrelated hypotheses that the ovarian hormones produce their positive feedback effects on luteinizing hormone (LH) secretion through activation of noradrenergic and adrenergic systems in specific hypothalamic regions. Furthermore, the ovarian hormones may alter the activity of opioid neuropeptide and Gamma-Aminobutyric Acid (GABA) systems to produce these alterations in catecholamine transmission and gonadotropin secretion. Radioimmunoassays were utilized to determine plasma LH and median eminence LHRH, and hypothalamic catecholamine concentrations were measured by radioenzymatic assay. The first two studies tested whether epinephrine (EPI) synthesis inhibition blocks the accumulation of median eminence LHRH that precedes the ovarian hormone-induced LH surge and also to test whether the stimulatory ovarian hormone regimen enhances the activity of hypothalamic EPI systems. Ovariectomized rats were primed with estradiol (EB), followed 2 days later by progesterone (Prog.). Animals were treated before Prog, administration with saline, one of the EPI synthesis inhibitors SKF 64139 or LY 78335, or the norepinephrine (NE) synthesis inhibitor, FLA-63. The catecholamine synthesis inhibitors blocked or delayed the LH surge. FLA-63 completely prevented the accumulation of LHRH in the median eminence that preceded the rise in LH release. However, selective reduction in EPI levels with SKF 64139 only partially prevented this increase in LHRH. A second EPI synthesis inhibitor, LY 78335, delayed both the LH surge and the rise in LHRH. In a second experiment, the administration of EB plus Prog, to ovariectomized rats increased the alpha-methyltyrosine (aMT) induced depletion of EPI in the medial basal hypothalamus (MBH). The depletion of NE after synthesis inhibition was enhanced in both the MBH and preoptic-anterior hypothalamus (POA). Experiments 3 and 4 examined a possible mechanism underlying these ovarian hormone effects on LH release and catecholamine activity. These studies tested whether the opiate antagonist, naloxone, which increases LH release, enhances the activity of NE and EPI neurons in the hypothalamus, and also tested whether morphine, an opiate agonist which decreases LH release, depresses the activity of hypothalamic NE and EPI activity. Administration of naloxone to EB-primed rats increased LH release and potentiated the depletion of NE in the POA and MBH, and enhanced the decline of EPI and dopamine (DA) in the MBH, suggesting increased catecholamine activity in these regions. Administration of the opiate agonist, morphine, to rats pretreated with EB and Prog., decreased LH and decreased the depletion of the catecholamines in the POA and MBH, suggesting reduced activity. In most cases, naloxone antagonized the inhibitory effect of morphine. Experiments 3, 6, and 7 examined the involvement of (GABA) systems in the positive feedback effects of EB and Prog, on LHRH and LH release. These studies tested 1) the effects of GABAergic drugs on the LH surge induced by EB and Prog., 2) whether GABA agonists reduce NE and EPI activity in the hypothalamus, and 3) whether a GABA agonist prevents the accumulation of median eminence LHRH induced by EB and Prog. Ovariectomized rats received the stimulatory EB plus Prog, treatment. Simultaneously with Prog., rats received either saline, the barbiturate, phenobarbital, the GABAg agonist, baclofen, the GABA^ agonist, muscimol, or either the GABA^ antagonist, bicuculline, or the putative GABAg antagonist, 5-aminovalerate. Additional experiments tested the effects of the GABA drugs on LH release in ovariectomized, hormonally untreated rats and in response to exogenous LHRH. The LH surge induced by EB+Prog. was blocked by treatment with either baclofen, muscimol, or phenobarbital. Bicuculline was ineffective in preventing the effect of baclofen and phonobarbital but partially prevented the effect of muscimol. Neither baclofen nor muscimol significantly affected LH release in hormonally untreated, ovariectomized rats or in rats receiving LHRH administration. In the results of Experiment 6, in EB plus Prog.-treated rats, baclofen and muscimol significantly reduced the concentrations of EPI and NE in the POA and MBH and prevented their decline after administration of otMT, suggesting decreased catecholamine transmission. In Experiment 7, rats were primed with the ovarian hormones and received, concurrently with Prog., either saline, or baclofen. The GABAg agonist, baclofen, blocked the LH surge and selectively increased LHRH concentrations. Experiment 8 tested 1) whether baclofen reverses the enhancement of LH release and catecholamine activity produced by naloxone, and 2) whether the opiate antagonist, nalmefene, prevents the blockade of the LH surge produced by baclofen. In the first study of Experiment 8, naloxone increased LH release and enhanced catecholamine activity in EB-primed rats. Baclofen was unable to reverse these effects. In the second study, baclofen administration to EB plus P treated rats blocked the LH surge and concomitant administration of nalmefene was unable to prevent this effect of baclofen. These results suggest that: 1) the ovarian hormones activate both NE and EPI systems to stimulate the early afternoon rise of LHRH in the median eminence and to induce the subsequent LH surge, 2) the ovarian hormones may produce their positive feedback effects on LH secretion by removing an inhibitory GABA or opioid neuropeptide influence on catecholamine transmission, allowing NE and EPI to stimulate LHRH, and subsequently, LH release, and 3) these modulatory actions of GABA and opiates may represent effects of two parallel, yet independent hypothalamic systems which regulate catecholamine neurotransmission and subsequently LH secretion.

Evidence for an increased opioid inhibition of LH secretion in hyperprolactinaemic ovariectomized rats

10.1677/joe.0.1010057 ◽

1984 ◽

Vol 101 (1) ◽

pp. 57-61 ◽

Cited By ~ 6

Author(s):

D. A. Carter ◽

J. S. Cooper ◽

S. E. Inkster ◽

S. A. Whitehead

Keyword(s):

Positive Feedback ◽

Day Treatment ◽

Inhibitory Effect ◽

Ovariectomized Rats ◽

Dopamine Antagonist ◽

Similar Treatment ◽

Lh Surge ◽

Lh Release ◽

Ovine Prolactin ◽

ABSTRACT The effects of acute and sub-chronic hyperprolactinaemia on the positive feedback action of progesterone in oestrogen-primed ovariectomized rats have been compared. A single injection of ovine prolactin administered with progesterone had no effect on the LH surge measured 5 h later although hyperprolactinaemia induced by 5-day treatment with the dopamine antagonist, domperidone, markedly attenuated the surge. Repeated injections of naloxone (5 mg/kg) during the development of the progesterone-stimulated LH surge completely reversed this inhibitory effect of hyperprolactinaemia, but had no apparent effect on the positive feedback action in control animals. In oestrogen-primed animals similar treatment with naloxone (0·4 and 5 mg/kg) stimulated LH secretion but the increase was significantly smaller than that observed after injecting progesterone. It is suggested that hyperprolactinaemia increases the inhibitory opioid modulation of LH release and that this effect is responsible for the impairment of the positive feedback action of progesterone. J. Endocr. (1984) 101, 57–61

KNDy Neurons Modulate the Magnitude of the Steroid-Induced Luteinizing Hormone Surges in Ovariectomized Rats

Endocrinology ◽

10.1210/en.2015-1070 ◽

2015 ◽

Vol 156 (11) ◽

pp. 4200-4213 ◽

Cited By ~ 23

Author(s):

Cleyde V. Helena ◽

Natalia Toporikova ◽

Bruna Kalil ◽

Andrea M. Stathopoulos ◽

Veronika V. Pogrebna ◽

...

Keyword(s):

Negative Feedback ◽

Arcuate Nucleus ◽

Ovariectomized Rats ◽

Neurokinin B ◽

Lh Surge ◽

Neuronal Populations ◽

Lh Release ◽

Positive And Negative Feedback ◽

Kndy Neurons ◽

Kisspeptin is the most potent stimulator of LH release. There are two kisspeptin neuronal populations in the rodent brain: in the anteroventral periventricular nucleus (AVPV) and in the arcuate nucleus. The arcuate neurons coexpress kisspeptin, neurokinin B, and dynorphin and are called KNDy neurons. Because estradiol increases kisspeptin expression in the AVPV whereas it inhibits KNDy neurons, AVPV and KNDy neurons have been postulated to mediate the positive and negative feedback effects of estradiol on LH secretion, respectively. Yet the role of KNDy neurons during the positive feedback is not clear. In this study, ovariectomized rats were microinjected bilaterally into the arcuate nucleus with a saporin-conjugated neurokinin B receptor agonist for targeted ablation of approximately 70% of KNDy neurons. In oil-treated animals, ablation of KNDy neurons impaired the rise in LH after ovariectomy and kisspeptin content in both populations. In estradiol-treated animals, KNDy ablation did not influence the negative feedback of steroids during the morning. Surprisingly, KNDy ablation increased the steroid-induced LH surges, accompanied by an increase of kisspeptin content in the AVPV. This increase seems to be due to lack of dynorphin input from KNDy neurons to the AVPV as the following: 1) microinjections of a dynorphin antagonist into the AVPV significantly increased the LH surge in estradiol-treated rats, similar to KNDy ablation, and 2) intra-AVPV microinjections of dynorphin in KNDy-ablated rats restored LH surge levels. Our results suggest that KNDy neurons provide inhibition to AVPV kisspeptin neurons through dynorphin and thus regulate the amplitude of the steroid-induced LH surges.

Dissociation between the ovarian factors controlling sexual receptivity and preovulatory secretion of LH in cyclic female rats

10.1677/joe.0.1120133 ◽

1987 ◽

Vol 112 (1) ◽

pp. 133-138 ◽

Cited By ~ 2

Author(s):

P. Södersten ◽

P. Eneroth

Keyword(s):

Sexual Behaviour ◽

Female Rats ◽

Ovariectomized Rats ◽

Sexual Receptivity ◽

Serum Progesterone ◽

Lh Surge ◽

Oestradiol Benzoate ◽

Lh Release ◽

Lh Secretion ◽

Intact Rats

ABSTRACT Ovariectomy and treatment with oestradiol benzoate (10 μg OB) on the day before behavioural oestrus eliminated the preovulatory surge of LH and reduced the level of sexual receptivity on the following day. Sexual behaviour, but not the LH surge, was restored by progesterone (0·5 mg) given 18 h later. Injection of OB on the day after behavioural oestrus induced a small release of LH and normal sexual behaviour on the following day. Ovariectomy on the day after behavioural oestrus reduced the stimulatory effect of OB on sexual behaviour and eliminated its weakly stimulatory effect on LH release. Sexual behaviour, but not the small LH surge, was restored in these animals by progesterone (0·5 mg) given 18 h later. Treatment of rats ovariectomized 2 days before the day of the LH surge with implants containing oestradiol or injections of oestradiol (1 μg) induced LH surges but the amplitudes of these LH surges were much smaller than those of the normal LH surge. Treatment of intact rats with OB increased serum progesterone levels 24 h later, an effect which was eliminated by ovariectomy. Injections of LH (20 μg) into intact rats on the day after behavioural oestrus also increased serum progesterone concentrations but failed to stimulate sexual behaviour. It is suggested that OB treatment of intact rats on the day after behavioural oestrus stimulates sexual behaviour by inducing a surge of LH secretion which activates ovarian secretion of progesterone. Thus, oestrogen and progesterone but not the LH surge are essential for sexual behaviour. Whereas oestradiol and progesterone restore normal sexual behaviour in ovariectomized rats, additional ovarian factors may be required for induction of normal LH surges. J. Endocr. (1987) 112, 133–138

Effect of naloxone on the development of the positive feed-back action of oestrogen-progesterone on LH secretion in rats

Acta Endocrinologica ◽

10.1530/acta.0.1150016 ◽

1987 ◽

Vol 115 (1) ◽

pp. 16-20

Author(s):

María R. Faigón ◽

Berta Szwarcfarb ◽

Pablo Scacchi ◽

Jaime A. Moguilevsky

Keyword(s):

Positive Feedback ◽

Ovarian Hormones ◽

Inhibitory Effect ◽

Feedback Mechanism ◽

Feedback Effect ◽

Opiate Peptides ◽

Lh Release ◽

Positive Feedback Mechanism ◽

Lh Secretion ◽

Positive Feedback Effect

Abstract. The purpose of this study was to examine the role of opiate peptides in the development of the positive feedback effect of ovarian hormones (Oe-P) on the LH secretion that matures in female rats at about the age of 20–22 days. Oe-P administration at the age of 14 days induced a significant decrease of LH levels. A single injection of naloxone (5 mg/kg) induced a significant release of LH. This release was completely blocked by Oe-P administration. At the age of 20 days, Oe-P did not induce any significant change of LH levels, whereas naloxone increased the serum LH concentration. On the other hand, injection of Oe-P into naloxone-treated rats induced a significant rise in LH that was significantly higher than that observed with naloxone alone (P <0.025). Oe-P administration induced a positive feedback effect on LH at the age of 25 days. At this age, naloxone also increased LH levels and a significant potentiation of the LH release in response to Oe-P was observed in a group treated with naloxone. These results indicate that naloxone advances the development of the positive feedback mechanism of ovarian hormones on LH secretion and potentiates this mechanism after its maturation. On this basis it is proposed that the probable inhibitory effect of opiates on the onset of the positive feedback mechanism is related to the well-known participation of the opiate system in the onset of puberty. The LH release in response to naloxone significantly decreased from day 14 to day 25 and this could represent a decrease in the inhibitory effect of opiate peptides on LH secretion, probably connected with the onset of the postive feedback mechanism.

The Increase in Signaling by Kisspeptin Neurons in the Preoptic Area and Associated Changes in Clock Gene Expression That Trigger the LH Surge in Female Rats Are Dependent on the Facilitatory Action of a Noradrenaline Input

Endocrinology ◽

10.1210/en.2015-1323 ◽

2016 ◽

Vol 157 (1) ◽

pp. 323-335 ◽

Cited By ~ 7

Author(s):

Bruna Kalil ◽

Aline B. Ribeiro ◽

Cristiane M. Leite ◽

Ernane T. Uchôa ◽

Ruither O. Carolino ◽

...

Keyword(s):

Gene Expression ◽

Median Eminence ◽

Preoptic Area ◽

Clock Genes ◽

Third Ventricle ◽

Female Rats ◽

Ovariectomized Rats ◽

Lh Surge ◽

Clock Gene Expression

Abstract In rodents, kisspeptin neurons in the rostral periventricular area of the third ventricle (RP3V) of the preoptic area are considered to provide a major stimulatory input to the GnRH neuronal network that is responsible for triggering the preovulatory LH surge. Noradrenaline (NA) is one of the main modulators of GnRH release, and NA fibers are found in close apposition to kisspeptin neurons in the RP3V. Our objective was to interrogate the role of NA signaling in the kisspeptin control of GnRH secretion during the estradiol induced LH surge in ovariectomized rats, using prazosin, an α1-adrenergic receptor antagonist. In control rats, the estradiol-induced LH surge at 17 hours was associated with a significant increase in GnRH and kisspeptin content in the median eminence with the increase in kisspeptin preceding that of GnRH and LH. Prazosin, administered 5 and 3 hours prior to the predicted time of the LH surge truncated the LH surge and abolished the rise in GnRH and kisspeptin in the median eminence. In the preoptic area, prazosin blocked the increases in Kiss1 gene expression and kisspeptin content in association with a disruption in the expression of the clock genes, Per1 and Bmal1. Together these findings demonstrate for the first time that NA modulates kisspeptin synthesis in the RP3V through the activation of α1-adrenergic receptors prior to the initiation of the LH surge and indicate a potential role of α1-adrenergic signaling in the circadian-controlled pathway timing of the preovulatory LH surge.

Release of Norepinephrine in the Preoptic Area Activates Anteroventral Periventricular Nucleus Neurons and Stimulates the Surge of Luteinizing Hormone

Endocrinology ◽

10.1210/en.2012-1302 ◽

2013 ◽

Vol 154 (1) ◽

pp. 363-374 ◽

Cited By ~ 35

Author(s):

Raphael E. Szawka ◽

Maristela O. Poletini ◽

Cristiane M. Leite ◽

Marcelo P. Bernuci ◽

Bruna Kalil ◽

...

Keyword(s):

Positive Feedback ◽

Preoptic Area ◽

Lh Surge ◽

Ovx Rats ◽

Selective Lesion ◽

Periventricular Nucleus ◽

Reverse Microdialysis ◽

Fos Expression ◽

The role of norepinephrine (NE) in regulation of LH is still controversial. We investigated the role played by NE in the positive feedback of estradiol and progesterone. Ovarian-steroid control over NE release in the preoptic area (POA) was determined using microdialysis. Compared with ovariectomized (OVX) rats, estradiol-treated OVX (OVX+E) rats displayed lower release of NE in the morning but increased release coincident with the afternoon surge of LH. OVX rats treated with estradiol and progesterone (OVX+EP) exhibited markedly greater NE release than OVX+E rats, and amplification of the LH surge. The effect of NE on LH secretion was confirmed using reverse microdialysis. The LH surge and c-Fos expression in anteroventral periventricular nucleus neurons were significantly increased in OVX+E rats dialyzed with 100 nm NE in the POA. After Fluoro-Gold injection in the POA, c-Fos expression in Fluoro-Gold/tyrosine hydroxylase-immunoreactive neurons increased during the afternoon in the A2 of both OVX+E and OVX+EP rats, in the locus coeruleus (LC) of OVX+EP rats, but was unchanged in the A1. The selective lesion of LC terminals, by intracerebroventricular N-(2-chloroethyl)-N-ethyl-2-bromobenzylamine, reduced the surge of LH in OVX+EP but not in OVX+E rats. Thus, estradiol and progesterone activate A2 and LC neurons, respectively, and this is associated with the increased release of NE in the POA and the magnitude of the LH surge. NE stimulates LH secretion, at least in part, through activation of anteroventral periventricular neurons. These findings contribute to elucidation of the role played by NE during the positive feedback of ovarian steroids.

Effect of androgen on Kiss1 expression and luteinizing hormone release in female rats

10.1530/joe-16-0568 ◽

2017 ◽

Vol 233 (3) ◽

pp. 281-292 ◽

Cited By ~ 8

Author(s):

Kinuyo Iwata ◽

Yuyu Kunimura ◽

Keisuke Matsumoto ◽

Hitoshi Ozawa

Keyword(s):

Luteinizing Hormone ◽

Arcuate Nucleus ◽

Female Rats ◽

Hormone Release ◽

Lh Surge ◽

Continuous Release ◽

Ovulatory Dysfunction ◽

Lh Release ◽

Gonadotrophin Releasing Hormone ◽

Hyperandrogenic women have various grades of ovulatory dysfunction, which lead to infertility. The purpose of this study was to determine whether chronic exposure to androgen affects the expression of kisspeptin (ovulation and follicle development regulator) or release of luteinizing hormone (LH) in female rats. Weaned females were subcutaneously implanted with 90-day continuous-release pellets of 5α-dihydrotestosterone (DHT) and studied after 10 weeks of age. Number of Kiss1-expressing cells in both the anteroventral periventricular nucleus (AVPV) and arcuate nucleus (ARC) was significantly decreased in ovary-intact DHT rats. Further, an estradiol-induced LH surge was not detected in DHT rats, even though significant differences were not observed between DHT and non-DHT rats with regard to number of AVPV Kiss1-expressing cells or gonadotrophin-releasing hormone (GnRH)-immunoreactive (ir) cells in the presence of high estradiol. Kiss1-expressing and neurokinin B-ir cells were significantly decreased in the ARC of ovariectomized (OVX) DHT rats compared with OVX non-DHT rats; pulsatile LH secretion was also suppressed in these animals. Central injection of kisspeptin-10 or intravenous injection of a GnRH agonist did not affect the LH release in DHT rats. Notably, ARC Kiss1-expressing cells expressed androgen receptors (ARs) in female rats, whereas only a few Kiss1-expressing cells expressed ARs in the AVPV. Collectively, our results suggest excessive androgen suppresses LH surge and pulsatile LH secretion by inhibiting kisspeptin expression in the ARC and disruption at the pituitary level, whereas AVPV kisspeptin neurons appear to be directly unaffected by androgen. Hence, hyperandrogenemia may adversely affect ARC kisspeptin neurons, resulting in anovulation and menstrual irregularities.

Evaluation of LH secretory dynamics during the rat proestrous LH surge

AJP Regulatory Integrative and Comparative Physiology ◽

10.1152/ajpregu.1999.276.1.r219 ◽

1999 ◽

Vol 276 (1) ◽

pp. R219-R225 ◽

Cited By ~ 1

Author(s):

Kathleen M. Hoeger ◽

Lisa A. Kolp ◽

Frank J. Strobl ◽

Johannes D. Veldhuis

Keyword(s):

Half Life ◽

Approximate Entropy ◽

Fold Increase ◽

Pituitary Hormones ◽

Release Process ◽

Secretory Rate ◽

Lh Surge ◽

Concentration Time Series ◽

Lh Release ◽

The preovulatory luteinizing hormone (LH) surge results from the integration of complex interactions among gonadal steroids and hypothalamic and pituitary hormones. To evaluate changes in LH secretory dynamics that occur during the rat LH surge, we have 1) obtained frequently sampled serum LH concentration time series, 2) used both waveform-dependent and waveform-independent convolution analyses, and 3) independently assessed proestrous LH half-life and basal non-gonadotropin-releasing hormone (GnRH)-dependent LH secretion during the LH surge. Waveform-independent pulse analysis revealed a 24-fold increase in the maximal pulsatile LH secretory rate attained during late proestrus compared with early proestrus. A 15-fold increase was quantified for the mean LH secretory rate. In complementary analyses, we applied a measured LH half-life of 17 ± 2.7 min and a median basal LH secretion rate of 0.0046 μg ⋅ l−1 ⋅ min−1 for convolution analysis, revealing a 16-fold increase in the mass of LH released/burst and more than sixfold rise in the amplitude of the secretory peaks. Evaluation of the approximate entropy of the LH surge profiles was performed, showing an increase in the orderliness of the LH release process during the surge. We conclude that both quantitative (mass/burst) and qualitative (approximate entropy) features of LH release are regulated during the proestrous LH surge.

Involvement of excitatory amino acidergic inputs into the median eminence in regulating pulsatile LH secretion in ovariectomized rats

Neuroscience Research Supplements ◽

10.1016/0921-8696(94)93018-x ◽

1994 ◽

Vol 19 ◽

pp. S265

Author(s):

Hiroshi Nagabukuro ◽

Satoshi Ohkura ◽

Hiroko Tsukamura ◽

Kei-Ichiro Maeda

Keyword(s):

Median Eminence ◽

Ovariectomized Rats ◽

Pup removal suppresses estrogen-induced surges of LH secretion and activation of GnRH neurons in lactating rats

10.1677/joe.1.06728 ◽

2006 ◽

Vol 191 (1) ◽

pp. 339-348 ◽

Cited By ~ 3

Author(s):

Atsushi Fukushima ◽

Ping Yin ◽

Maho Ishida ◽

Nobuhiro Sugiyama ◽

Jun Arita

Keyword(s):

Third Ventricle ◽

Acute Effect ◽

Suppressive Effect ◽

Female Rats ◽

Ovariectomized Rats ◽

Indwelling Catheter ◽

Lh Surge ◽

Gnrh Neurons ◽

Double Immunohistochemical Staining ◽

During lactation, the suckling stimulus exerts profound influences on neuroendocrine regulation in nursing rats. We examined the acute effect of pup removal on the estrogen-induced surge of LH secretion in ovariectomized lactating rats. Lactating and nonlactating cyclic female rats were given an estradiol-containing capsule after ovariectomy, and blood samples were collected through an indwelling catheter for serum LH determinations. In lactating, freely suckled ovariectomized rats, estrogen treatment induced an afternoon LH surge with a magnitude and timing comparable to those seen in nonlactating rats. Removal of pups from the lactating rats at 0900, 1100, or 1300 h, but not at 1500 h, suppressed the estrogen-induced surge that normally occurs in the afternoon of the same day. The suppressive effect of pup removal at 0900 h was completely abolished when the pups were returned by 1400 h. In contrast, pup removal was ineffective in abolishing the stimulatory effect of progesterone on LH surges. Double immunohistochemical staining for gonadotropin-releasing hormone (GnRH) and c-Fos, a marker for neuronal activation, revealed a decrease, concomitantly with the suppression of LH surges, in the number of c-Fos-immunoreactive GnRH neurons in the preoptic regions of nonsuckled rats. An LH surge was restored in nonsuckled rats when 0.1 μg oxytocin was injected into the third ventricle three times at 1-h intervals during pup removal. These results suggest that the GnRH surge generator of lactating rats requires the suckling stimulus that is not involved in nonlactating cyclic female rats.