Synaptology of luteinizing hormone-releasing hormone neurons in rat preoptic area

The ultrastructural appearance of luteinizing hormone-releasing hormone (LHRH) immunoreactive elements was studied in the medial preoptic area (MPOA) of adult male Fischer 344 rats. The purpose of the study was to determine the distribution and morphology of innervation of the LHRH neuron. Although not numerous, both axo-somatic and axo-dendritic synapses were present and generally of the asymmetric (Gray's II) category. Analyses of 56 profiles of 11 separate perikarya revealed only 7 axo-somatic terminals. The synaptic input to LHRH dendrites was a fraction of that to non-identified dendrites in the same electron micrographic fields; 0.4% of LHRH dendritic membrane was in synaptic contact compared to 6.6% of nonidentified dendritic membrane. In addition to receiving an input, LHRH processes were also seen to make synapses onto non-immunoreactive elements. Close examination of this material for evidence of contact between LHRH elements revealed two clear examples of synaptic interaction and several instances of close association in which no other elements intervened.     

Synaptic interactions of luteinizing hormone-releasing hormone (LHRH) neurons in the guinea pig preoptic area

Previous studies from many laboratories have failed to demonstrate a significant synaptic input to luteinizing hormone-releasing hormone (LHRH) neurons in the rodent or primate hypothalamus/preoptic area. Having now developed immunocytochemical procedures that result in excellent ultrastructural preservation as well as in retention of antigenicity (Silverman AJ: J Comp Neurol 227:452, 1984), we have reinvestigated the question of the organization of the synaptic arrangements of LHRH neurons in the medial preoptic area of the guinea pig. Afferent inputs to these LHRH neurons include several varieties of axo-somatic and axo-dendritic synapses. Presynaptic terminals contain either round clear vesicles or a mixture of round and flattened vesicles. Most of these terminals, especially when serial sections are examined, contain dense-core granules. Well-defined synaptic clefts are evident and postsynaptic densities can be identified for asymmetrical connections. However, the presence of reaction product in the postsynaptic structure makes it difficult to categorize symmetrical terminals. In addition to these classical inputs, LHRH neurons also enter into complex heterodox synaptic relationships with their neighbors, including somato-dendritic and dendro-dendritic synapses in which the LHRH neuron can be either the pre- or postsynaptic element. These results suggest that complex synaptic relationships might account for the multiple levels of regulation of neurohormone release.     

Mechanism of luteinizing hormone-releasing hormone degradation by subcellular fractions of rat hypothalamus and pituitary

The pathway of LH-RH degradation by two subcellular fractions (a soluble fraction and a 25 000 X g particulate fraction) of rat hypothalamus, pituitary and cerebral cortex has been studied using high performance liquid chromatography and amino acid analysis to identify the breakdown products. The primary cleavage point in the Tyr5-Gly6 bond giving [1-5] LH-RH and [6-10] LH-RH. In the presence of dithiothreitol, cleavage of LH-RH also occurred at the Pro9-Gly10 bond giving [1-9] LH-RH. The fragment [1-5] LH-RH is further degraded sequentially from the C-terminus and [1-4] LH-RH, [1-3] LH-RH, tyrosine and tryptophan were identified. The other major fragment, [6-10] LH-RH, is rapidly broken down, the only intermediate product positively identified being Arg-Pro.     

Ethanol inhibits the naloxone-induced release of luteinizing hormone-releasing hormone from the hypothalamus of the male rat

It has been inferred that ethanol suppresses the secretion of luteinizing hormone (LH) in the male by depressing the release of LH-releasing hormone (LH-RH) from the hypothalamus. Direct support for this inference has been difficult to obtain, however, because of significant technical difficulties in measuring LH-RH release under in vivo conditions. To circumvent these problems, we made use of the opiate antagonist naloxone, as a neuroendocrine probe, to elicit the release of LH-RH under in vivo conditions. We found that ethanol was a potent suppressor of the increase in serum LH levels evoked by naloxone at extremely low blood ethanol concentrations ( less than 60 mg/dl). Furthermore, we observed that the antagonism between ethanol and naloxone appeared to be competitive in nature since a fixed dose of ethanol (1 g/kg, blood ethanol concentration 60 mg/dl) shifted the naloxone dose-response curve significantly to the right and high doses of the antagonist overcame ethanol's effects. Finally, we found that the interaction between ethanol and naloxone took place at the level of the hypothalamus. Our results, therefore, seem to provide the first in vivo evidence supporting the widely-held hypothesis that ethanol reduces serum LH levels by depressing the hypothalamically-medicated release of LH-RH. The mechanisms underlying ethanol's depression of naloxone-induced increases in the release of LH-RH are not fully understood at this time, but one prominent possibility is that ethanol enhances the synthesis or release of endogenous opioids which in turn override naloxone's effects.     

Age-related alterations in the stimulated release in vitro of catecholamines and luteinizing hormone-releasing hormone from the male rat hypothalamus

Using an in vitro perifusion system, the present study investigated the possibility that alterations in catecholamine and luteinizing hormone-releasing hormone (LHRH) secretion from the male rat mediobasal hypothalamus are present during the period of middle-age. The results indicate that, while tissue concentrations and baseline secretion of norepinephrine, dopamine and LHRH were similar between age groups, the patterns of dopamine and LHRH release in response to a series of depolarizing stimuli was different in the older animals. After all challenges, dopamine concentrations in the perifusate declined much more sharply for the middle-aged group, a finding that may be associated with a decrease with age in the pool of transmitter available for ready release. Also, tissue fragments from young adult rats were able to maintain the release of LHRH to a greater extent than tissue from the middle-aged animals, but only for the initial challenge period. The typical episodic pattern of LHRH release appeared to be disrupted in the older group following a second stimulus. It is possible that these age-related changes are early components of a dysruption in the hypothalamic mechanisms governing gonadotropin secretion.The research described in this article has been reviewed by the Health Effects Research Laboratory, U.S. Environmental Protection Agency and approved for publication. Approval does not signify that the contents necessarily reflect the views and policies of the Agency, nor does mention of trade name or commercial products constitute endorsement or recommendation for use.     

Distribution of luteinizing hormone-releasing hormone receptors in the rat ovary

The distribution of luteinizing hormone-releasing hormone (LHRH) receptors was studied in the adult rat ovary using autoradiography after injection of the stable LHRH agonist ¹²⁵I-labelled [D-Ser(TBU)⁶,des-Gly-NH₂¹⁰]LHRH ethylamide (Buserelin) and by radioreceptor assay using the same tracer. In intact cycling female rats, no differences in ovarian LHRH receptor levels could be observed between day diestrus I and day proestrus. Moreover, similar levels are observed in total ovarian homogenate, corpora lutea and the remaining ovarian tissue in adult animals treated with PMSG (pregnant mare's serum gonadotropins) and hCG (human chorionic gonadotropin). Radioautographic data show a comparable distribution of grains over theca interna and externa, granulosa and luteal cells. The present findings indicate the presence of LHRH receptors in both the interstitial and follicular cells throughout all stages of cellular differentiation.     

Ascorbic acid enhances the release of luteinizing hormone-releasing hormone from the mediobasal hypothalamus in vitro

Ascorbic acid is frequently used in in vitro studies of neurotransmitter-evoked release of luteinizing hormone-releasing hormone (LHRH) from hypothalamic fragments. Although it is assumed that ascorbate merely prevents the oxidative degradation of catecholamines, we have discovered that ascorbic acid itself produces significant increases in the release of LHRH. Our studies showed that ascorbic acid, at concentrations below 1 mM, produced a dose-dependent release of LHRH from incubated rat mediobasal hypothalamus (MBH). The magnitude of the ascorbate-induced release was in the range of 100-200% above controls; significant amounts of LHRH were released only if the MBH were incubated with ascorbate for time periods longer than 30 minutes. We also found that ascorbate-induced increases in LHRH were equivalent to those produced by another LHRH secretagogue, naloxone, and that the combined effects of the two substances were additive in nature. Although the mechanisms underlying this effect are not fully understood, nonspecific chemical reduction is probably not a factor since sodium metabisulfite did not induce the release of LHRH. It seems probable that ascorbate may enhance the activity of endogenous norepinephrine in the MBH and, thereby, lead to increased release of LHRH.     

Neurons containing luteinizing hormone-releasing hormone in the indusium griseum of the rat

The authors detected LH--RH-containing neurons in the dorsal part of the hippocampus and in the indusium griseum of the rat. LH--RH-containing nerve fibres interconnect the organum subfornicale (OSF) and the dorsal hippocampus. Axons leaving the OSF can be traced backwards, then around the splenium of the corpus callosum, from where they run forwards in the stria longitudinalis medialis (SLM). LH--RH fibres of the SLM give axon collaterals to the cingulate cortex, then intermingle with the LH--RH system of the septum pellucidum. Following coronal transection of the SLM, it could be determined that LH--RH fibres form bidirectional connection between the septum and different regions of the hippocampus.     

Simultaneous measurement of luteinizing hormone-releasing hormone and luteinizing hormone during estradiol-induced luteinizing hormone surges in the ovariectomized ewe

Sequential bleeding and push-pull perfusion of the hypothalamus were used to characterize luteinizing hormone (LH) and LH-releasing hormone (LHRH) release in ovariectomized (OVX) ewes after injection of corn oil or estradiol benzoate (EB). Push-pull cannulae were surgically implanted into the stalk median eminences of 24 OVX ewes. Seven to 14 days later each of 20 animals was given an i.m. injection of 50 micrograms EB. Blood samples and push-pull perfusate were collected at 10-min intervals for 6-12 h beginning 12-15 h after EB injection. Four OVX ewes were given i.m. injections of corn oil 7 days after implantation of push-pull cannulae. Blood samples and push-pull perfusate were collected at 10-min intervals for 4 h between 18 and 22 h after injection of corn oil. Luteinizing hormone remained below 2 ng/ml throughout most of the sampling periods in 9 of 20 EB-treated ewes. In 5 of these 9 LHRH also was undetectable, whereas in 4 LHRH was detectable (1.84 +/- 0.29 pg/10 min), but did not increase with time. Preovulatory-like surges of LH occurred in 11 EB-treated ewes, but LHRH was undetectable in 5. In 4 of 6 ewes showing LH surges and detectable LHRH, sampling occurred during the onset of the LH surge.(ABSTRACT TRUNCATED AT 250 WORDS)     

Immunocytochemistry of luteinizing hormone-releasing hormone,vasopressin, and corticotropin following deafferentation of the basal hypothalamus of the male rat brain

Summary Luteinizing hormone-releasing hormone (LHRH), vasopressin, and corticotropin systems were examined by immunocytochemical methods in male rats 2 to 20 days after deafferentation of the basal hypothalamus. Axonal degeneration of the vasopressin system (whose perikarya lie rostral to the island) and the corticotropin system (whose perikarya lie within the island) was examined and compared with the response of the LHRH system.Vasopressin immunoreactive staining was absent in the internal zone of the median eminence 10 and 20 days after deafferentation. Disruption of the efferent projections of the opiocortin system caused the loss of almost all fiber staining outside the island by the 5th postoperative day. LHRH staining in the median eminence was modestly reduced in 5 days, considerably reduced in 10 days and negligible 20 days after deafferentation. At 10 and/or 20 days after deafferentation densely stained fibers of all three systems were observed on both sides of the cut. Invasive vasopressinergic fibers reached the lateral median eminence by the 20th postoperative day.This study reports on the response of three neuropeptide systems after complete deafferentation and demonstrates that regeneration can occur across the knife cut.Supported by: NIH Grants AM-22029 and Program Project NS-15345, and USPHS grant 5T32 GM-07136-06The authors wish to express their appreciation to Ms. Barbara Dolf for her technical assistance.     

Mechanism of action of luteinizing hormone-releasing hormone in rat ovarian cells

The initial step in the signal transduction of luteinizing hormone-releasing hormone (LHRH) in rat ovarian cells is the hydrolysis of membrane polyphosphoinositides into inositol phosphates and 1,2-diacylglycerol. The former compounds, especially inositol 1,4,5-triphosphate, are known to cause the release of calcium from intracellular stores, while diacylglycerol is a potent activator of protein kinase C. LHRH causes a rapid and transient increase in intracellular concentrations of free calcium ions, by approximately 4.5-fold, in the majority of granulosa cells as assessed by fura-2 microspectrofluorimetry. Like LHRH, a calcium ionophore (A23187) and activators of protein kinase C attenuate the steroidogenic response of the cells to follicle-stimulating hormone, but enhance the formation of gonadotropin-induced prostaglandin formation. These results support the concept that stimulation of polyphosphoinositide hydrolysis is intimately involved in the direct action of LHRH at the level of the ovary.     

Catecholamine stimulation of androgen production by rat Leydig cells. Interactions with luteinizing hormone and luteinizing hormone-releasing hormone

The mechanism(s) of the development of response to catecholamines (CA) by Leydig cells in culture was investigated with the use of primary culture of purified Leydig cells of adult rats. The interactions of a CA agonist, isoproterenol (ISOP), with luteinizing hormone (LH) and a luteinizing hormone-releasing hormone agonist analog (LHRHa) on production of androgen by the Leydig cells were also studied. Cells incubated with ISOP for 3 h increased release of cyclic adenosine 3',5'-monophosphate (cAMP) to similar extents at 0, 3, and 24 h of culture. The beta-agonist did not increase androgen release at 0 h but had a concentration-dependent effect at 3, 24, and 48 h of culture, with maximal effects at 24 h. LH stimulated high increases in production of cAMP and androgen by the cells at 0-24 h of culture. Leydig cell beta-receptors decreased with culture time. Low concentrations but not high levels of LH had additive effects with ISOP on androgen release. ISOP showed a complex interaction with LHRHa on androgen release. Chronic exposure of Leydig cells to LHRHa reduced basal androgen release as well as release of androgen stimulated by ISOP, forskolin, and LH. These studies suggest that the development of response to CA by rat Leydig cells is a postreceptor, postcAMP event and showed that CA can interact with LH or LHRH to regulate Leydig cell function.     

Effects of aging on pituitary and testicular luteinizing hormone-releasing hormone receptors in the rat

Aging exerts profound influences on the function of the hypothalamic-pituitary-testicular-axis. This work has been performed in order to verify whether, in male rats, the decreased secretion of LH and testosterone (T) occurring in old animals is reflected by modifications of luteinizing hormone-releasing hormone (LHRH) receptors at the level of the anterior pituitary and of the testes. To this purpose, the affinity constant (Ka) and the maximal binding capacity (Bmax) for the LHRH analog [D-Ser(tBu)6]des-Gly10-LHRH-N-ethylamide were evaluated, by means of a receptor binding assay, in membrane preparations derived from the anterior pituitary and testicular Leydig cells of male rats of 3 and 19 months of age. Serum levels of LH and T were measured by specific RIAs. The results obtained show that, in aged male rats, the concentration of pituitary LHRH receptors is significantly lower than that found in young animals. On the other hand, the concentration of LHRH binding sites is significantly increased on the membranes of Leydig cells of old rats. In no instance the Ka for the LHRH analog is significantly affected. Serum levels of LH and T are significantly lower in old than in young male rats. In conclusion, these results suggest that the reduced secretion of LH in old male rats may be linked, at least partially, to a decrease of the number of pituitary LHRH receptors. The impaired production of testosterone occurring in aged rats is accompanied by a significant increase of the number of testicular LHRH receptors, indicating that also the intratesticular mechanisms controlling testosterone release undergo significant alterations with aging.     

Receptors for luteinizing hormone-releasing hormone.

Antisera to luteinizing hormone-releasing hormone (LH-RH) confer on Araldite sections of occasional rat pituitaries moderate immunocytochemical staining to the large secretory granules of gonadotrophs. Treatment of the sections with LH-RH before anti-LH-RH yields strong staining in all animals, irrespective of presence or absence of staining without pretreatment. This enhancement of staining is specific for LH-RH and is a high affinity, saturable reaction. Staining with or without LH-RH pretreatment is absent when anti-LH-RH absorbed with insolubilized LH-RH is used. Staining is inhibited by carboxyterminally-deficient LH-RH, unaffected by aminoterminally deficient LH-RH.     

Binding of luteinizing hormone-releasing hormone analogues to dispersed rat pituitary cells

The binding of luteinizing hormone-releasing hormone (LHRH) to dispersed rat pituitary cells was studied by using ¹²⁵I-labeled analogues of the neurohormone: a superactive agonist [D Ser (Bu^t)⁶]LHRH(1–9) ethylamide and an antagonist DpGlu¹, DPhe², DTrp^3,6-LHRH. Although these cells were exposed to proteolytic enzymes, their ability to respond to LHRH stimulation by gonadotropin release, is preserved. The time course of binding of the two analogues at different temperatures has demonstrated that highest specific binding is evident at 4°C and that equilibrium is reached after 90 min of incubation at this temperature. Incubation of pituitary cells with the labeled analogues together with increasing concentrations of LHRH or unlabeled analogues exhibited parallel competition curves, suggesting binding to the same receptor sites but with different affinities. Biologically inactive analogues of LHRH or unrelated peptides such as TRH did not compete for binding sites. K_a values for the agonist, LHRH and the antagonist were 2.1 × 10⁹M^?1, 0.92 × 10⁸M^?1 and 0.76 × 10⁹M^?1, respectively, and the binding capacity was 116 fmoles/10⁶ pituitary cells.     

Evidence of sex hormone binding globulin binding sites in the medial preoptic area and hypothalamus.

We have demonstrated a high density of both radiolabeled progesterone and estradiol conjugated to bovine serum albumin binding sites in the medial preoptic area and hypothalamus. Infusions of sex hormone binding globulin into the medial preoptic area of rats increased their female sexual receptivity similarly to the effect of estradiol conjugated to bovine serum albumin, suggesting sex hormone binding globulin acts at binding sites for estradiol conjugated to bovine serum albumin. In this study sex hormone binding globulin was used to displace radiolabeled progesterone conjugated to bovine serum albumin from plasma membrane fractions from the medial preoptic area-anterior hypothalamus and medial basal hypothalamus of ovariectomized rats injected with either 5 microg estradiol benzoate or sesame oil vehicle. We found that sex hormone binding displaced radiolabeled progesterone conjugated to bovine serum albumin in both areas and that in vivo estradiol treatment greatly increased the relative displacement by sex hormone binding globulin in the medial preoptic area-anterior hypothalamus. We interpret these data as indicating the presence of sex hormone binding globulin receptors in brain plasma membranes and further suggest that endogenous steroid conditions may alter these receptors.