Hypothalamic factors involved in the endogenous stimulatory rhythm regulating prolactin secretion

We recently reported that acute pharmacologic depression of dopaminergic tone at different times of day unmasks a sex-specific endogenous stimulatory rhythm regulating PRL secretion. The PRL secretory responses of ovariectomized rats to the dopamine antagonist domperidone (DOM) were higher at 0300 and 1700 h than at 1200 h. These are the times during which surges of PRL appear in mated rats. This experimental paradigm was used to investigate the roles of the putative PRL-releasing factors (PRFs) oxytocin (OT), vasoactive intestinal peptide (VIP), and serotonin (5-HT) in this rhythm. The role of OT was studied by infusion of the OT antagonist 1-deamino-2-D-Trp-4-Val-8-Orn-Oxytocin (OT-A, 0.5 microgram/kg min) for 6 h. Two hours after beginning the OT-A infusion DOM was administered, as a single injection of 200 micrograms/kg iv at either 0300, 1200, or 1700 h. Serial blood samples were collected immediately before and 5, 10, 20, 30, 60, 120, 180, and 240 min after DOM administration. Infusion of OT-A attenuated the heightened PRL secretory responses to DOM given at both 0300 and 1700 h but did not affect the response at 1200 h. The role of VIP was studied by infusing the VIP antagonist [D, 4-Cl-Phe6,Leu17] VIP (VIP-A, 0.1 microgram/kg.min) as described above. VIP-A infusion had no effect on the PRL secretory responses to DOM given at 1200 or 1700 h but attenuated the heightened response at 0300 h. In order to study the role of 5-HT in the rhythm, rats were pretreated with p-chlorophenylalanine (250 mg/kg sc) 48 and again 24 h before the experiment. Pretreatment with p-chlorophenylalanine had no effect on the PRL secretory responses to DOM given at 0300 or 1200 h, but it attenuated the augmented PRL secretory response at 1700 h. These data suggest that both VIP and OT act as endogenous PRFs at 0300 h and 5-HT and OT act as PRFs at 1700 h. We propose that VIP and 5-HT are continuously active oscillatory neurotransmitters regulating OT release into pituitary portal blood and that these daily events only eventuate in PRL release when the mating stimulus has release the lactotroph from the inhibitory effects of dopamine.     

Activity of oxytocinergic neurons in the paraventricular nucleus mirrors the periodicity of the endogenous stimulatory rhythm regulating prolactin secretion.

PRL secretion is regulated by an endogenous stimulatory rhythm of PRL-releasing factors within the hypothalamus. The endogenous rhythm has a bimodal periodicity with a nocturnal component which peaks at approximately 0300 h and a diurnal component that peaks at approximately 1700 h. Several PRL-releasing factors are known to be involved in this rhythm. Among these are oxytocin (OT), vasoactive intestinal peptide, and serotonin. We have proposed that OT is the neurohormone that stimulates PRL release from the lactotroph. In this study, we examined the activity of OTergic neurons in the paraventricular nucleus using the expression of the protooncogene c-fos (Fos) as a marker of neuronal activity. Ovariectomized rats were killed at either 0300, 1200, or 1700 h and brains quickly fixed by perfusion with 2.5% acrolein in 4% paraformaldehyde. Brains were blocked and processed for OT/Fos immunohistochemistry. Rats killed at 0300 and 1700 h had significantly greater proportion of Fos expressing OTergic neurons than control rats (1200 h). Percent of Fos-positive OTergic neurons were 2- and 1.5-fold greater at 0300 and 1700 h than 1200 h, respectively. The majority of these neurons were located in the medial parvocellular paraventricular nucleus and periventricular area. In another experiment, groups of OVX rats were killed every 2 h over a 24-h period and OT extracted from their anterior and posterior pituitaries. OT was present in the anterior pituitary in a bimodal rhythm. OT concentrations were greatest at approximately 0400 h and slowly declined to baseline by 1000 h. Another peak of OT was present in the anterior pituitary at approximately 2000 h and quickly declined to baseline by 2400 h. This rhythm of OT was not reflected in either the posterior pituitary or trunk blood. These data suggest that activity of a specific population of OTergic neurons of the paraventricular nucleus is rhythmic. The periodicity of these neurons mirrors that of the endogenous stimulatory rhythm. Furthermore, the anatomical location of these neurons suggests that they may project to the median eminence. Indeed, this heightened activity is reflected in a bimodal rhythm of OT in the anterior pituitary. Taken together, the data presented here provide compelling support for the role of OT as the neurohormone in the mechanism of the endogenous stimulatory rhythm.     

Oxytocin, vasoactive-intestinal peptide, and serotonin regulate the mating-induced surges of prolactin secretion in the rat

In female rats the mating stimulus induces a bimodal pattern of PRL secretion. A surge of PRL occurs at approximately 0300 h, called the nocturnal surge (N). Another surge occurs at 1700 h on the same day, called the diurnal surge (D). By lowering dopaminergic tone pharmacologically, we have recently demonstrated the existence of an endogenous rhythm stimulatory to PRL secretion in female rats. The periods of this stimulatory influence coincide with the periods of the N and D surges of PRL that occur in mated rats. In addition, we have shown that the 0300 h component of this endogenous rhythm is regulated by oxytocin (OT) and vasoactive intestinal peptide (VIP), and the 1700 h component is regulated by OT and serotonin (5-HT). In this study, we investigated the roles of OT, VIP, and 5-HT in controlling the N and D surges of PRL in ovariectomized (OVX) rats receiving a physiological dopamine-lowering stimulus, copulomimetic stimulation. Blood samples were obtained the day before the experiments between 1700 and 1900 h to verify that the rats used were having surges of PRL in response to cervical stimulation (CS). The role of OT was studied by infusing the OT antagonist 1-deamino-2-D-Trp4-Val8-Orn-OT (OT-A; 0.5 micrograms/kg.min) beginning at either 0100 or 1500 h and continuing for 5 h on day 2 after the last CS. Serial blood samples were obtained immediately before infusion and 60, 90, 120, 150, 180, 240, and 300 min after the start of infusion. The samples overlapped either the N or D surge of PRL. All rats used in these studies demonstrated D surges of PRL the day before the experiment. Saline infusion had no effect on either the N or D surge of PRL in OVX-CS rats. However, infusion of OT-A completely blocked both the N and D surges of PRL. The role of VIP was studied by infusing the VIP antagonist [4-D-Cl-Phe6-Leu17]VIP (VIP-A; 01 micrograms/kg.min) beginning at either 0100 or 1500 h and continuing for 5 h. VIP-A completely blocked both the N and D surges of PRL. To study the role of 5-HT, rats received an acute treatment with p-chlorophenylalanine (PCPA; 250 mg/kg, sc) at either 0100 or 1500 h, and blood samples were taken as before. PCPA had no effect on the N surge of PRL.(ABSTRACT TRUNCATED AT 400 WORDS)     

Ontogeny of the endogenous stimulatory rhythm regulating prolactin secretion in immature female rats

PRL secretion in the female rat is regulated by an endogenous stimulatory rhythm (ESR). This rhythm consists of two components: a nocturnal (N) component whose activity is greatest by 0300 h and a diurnal (D) component that peaks at approximately 1700 h. This periodicity coincides with the periods of the N and D surges of PRL in responses to the mating stimulus. Furthermore, we have shown that the ESR is involved in the regulation of mating-induced PRL surges. Mating causes a lowering of dopaminergic tone which reveals the ESR for PRL. The ability of immature female rats to express PRL surges induced by copulomimetic stimuli begins at 25 days of age. In this study we investigated the ontogeny of the ESR in immature female rats in order to observe the relationship between the onset of PRL secretion induced by copulomimetic stimuli and the development of the ESR. Immature female rats were raised in our colony and kept with their dams until used in an experiment or weaned at 23 days of age where appropriate. At 15, 20, 23, 24, 25, or 30 days of age female rats received a single ip injection of domperidone (DOM; 5 mg/kg) or saline vehicle at 0300, 1200, or 1700 h. Thirty minutes after the injection the rats were decapitated, and trunk blood was collected. PRL was measured by RIA. DOM had no effect on PRL secretion as compared to that in saline-treated controls at 15 days of age. However, in all other age groups DOM induced a significant increase in PRL levels compared to those in saline-treated animals regardless of the time of injection. In addition, there was no time of day difference in the PRL secretory response to DOM in rats 15-23 days of age. However, rats treated with DOM at 0300 h at 24 days of age secreted approximately 2-fold greater PRL than rats treated similarly at 1200 or 1700 h. Moreover, at 25 and 30 days of age, rats treated with DOM at either 0300 or 1700 h secreted significantly greater PRL than rats treated similarly at 1200 h. These results suggest that the ESR for PRL secretion begins by 24 days of age. In addition, they indicate that the hypothalamic developmental event preceding and required for expression of mating-induced surges of PRL is the establishment of the ESR.     

Vasoactive intestinal polypeptide regulates dynamic changes in astrocyte morphometry: impact on gonadotropin-releasing hormone neurons

Recent studies suggest that astrocytes modulate the GnRH-induced LH surge. In particular, we have shown that the surface area of astrocytes that ensheath GnRH neurons exhibits diurnal rhythms. Vasoactive intestinal polypeptide (VIP) influences numerous aspects of astrocyte function in multiple brain regions and is a neurotransmitter in the suprachiasmatic nucleus (SCN) that affects GnRH neurons. The goals of this study were to: 1) assess whether astrocytes that surround GnRH neurons express VIP receptors, 2) determine the effects VIP suppression in the SCN on the morphometry of astrocytes surrounding GnRH neurons, and 3) assess whether this effect mimics aging-like changes in surface area of astrocytes. Young rats were ovariectomized (d 0), implanted with cannulae into the SCN (d 5), injected with VIP antisense (antioligo) or random sequence oligonucleotides, implanted with capsules containing 17beta-estradiol dissolved in oil (d 7), and perfused at 0300, 1400, and 1800 h (d 9). Brains were processed for immunocytochemistry. Our results demonstrate that astrocytes in close apposition to GnRH neurons express VIP receptors. Antioligo treatment blocked diurnal rhythms in surface area of astrocytes ensheathing GnRH neurons. The absence of diurnal rhythms resembles observations in middle-aged rats. Together these findings suggest that the ability of the VIP-containing neurons in the SCN to relay diurnal information to GnRH neurons may be by influencing dynamic changes in the morphometry of astrocytes that surround GnRH neurons. Furthermore, the absence of a VIP rhythm in aging animals may lead to altered GnRH activity via astrocyte-dependent mechanisms.     

The effect of prednisolone administration in early postnatal ontogeny on the circadian activity of the hypothalamo-hypophyseal-adrenal cortical system in adult rats

The disturbance of glucocorticoid balance in early postnatal ontogenesis (17-19 days) as a result of prednisolone administration was shown to lead to change in diurnal periodicity of the hypothalamo-hypophysial-adrenocortical system (HHAS) in adult rats. Diurnal rhythms of zona fasciculata-reticulata relative areas, the quantity of Gomori-positive neurosecretory material in the external zone of median eminence and in the posterior pituitary of these animals was undetectable. The amplitudes of plasma corticosterone rhythm and variations of cell nuclei volume in the zona fasciculata externa was decreased more than two-fold. Diurnal periodicity of nucleoli volume of Gomori-positive neurons in a hypothalamic paraventricular nucleus (PVN) as ventromedial as dorsolateral parts was attenuated and their maximum shifted to morning hours as compared to the night peak in control animals.     

Effect of the interaction between food state and the action of estrogen on oxytocinergic system activity

Increased plasma osmolality by food intake evokes augmentation of plasma oxytocin (OT). Ovarian steroids may also influence the balance of body fluids by acting on OT neurones. Our aim was to determine if estrogen influences the activity of OT neurones in paraventricular nucleus (PVN) and supraoptic nucleus (SON) under different osmotic situations. Ovariectomized rats (OVX) were treated with either estradiol (E(2)) or vehicle and were divided into three groups: group I was fed ad libitum, group II underwent 48?h of fasting, and group III was refed after 48?h of fasting. On the day of the experiment, blood samples were collected to determine the plasma osmolality and OT. The animals were subsequently perfused, and OT/FOS immunofluorescence analysis was conducted on neurones in the PVN and the SON. When compared to animals which were fasted or fed ad libitum, the plasma osmolality of refed animals was higher, regardless of whether they were treated with vehicle or E(2). We observed neural activation of OT cells in vehicle- or E(2)-treated OVX rats refed after 48?h of fasting, but not in animals fed ad libitum or in animals that only underwent 48?h of fasting. Finally, the percentage of neurones that co-expressed OT and FOS was lower in both the PVN and the SON of animals treated with E(2) and refed, when compared to vehicle-treated animals. These results suggest that E(2) may have an inhibitory effect on OT neurones and may modulate the secretion of OT in response to the increase of osmolality induced by refeeding.     

Suckling-induced changes of vasoactive intestinal peptide concentrations in hypothalamic areas implicated in the control of prolactin release

The present study was designed to investigate whether the vasoactive intestinal peptide (VIP) concentration in hypothalamic nuclei, dorsal raphe nucleus (DR) and pituitary lobes of lactating rats changes in physiological situations when prolactin (PRL) secretion is stimulated (suckling) or inhibited (pup separation). In addition VIP levels in blood plasma were determined in both situations. Acute suckling induced changes in VIP concentration only in the rostral part of the anterior hypothalamic (rAHN) and the paraventricular (PVN) nuclei of all the brain areas examined. VIP concentration in the rAHN increased at 5 min from 3.52 +/- 0.30 (mean +/- SEM) to 8.67 +/- 1.91 ng/mg protein (p less than 0.05) but fell to baseline values after 30 min suckling (p less than 0.05; 5 vs. 30 min). Although changes in VIP concentration in the suprachiasmatic nucleus (SCN) did not attain statistical significance, they followed the same trends as the changes of VIP in the rAHN. The opposite pattern of changes was observed in the PVN with a decrease in VIP concentration following 5 min suckling (p less than 0.01). At 30 min the VIP values showed a trend towards 0-min values. Pup removal did not affect VIP concentrations in the rAHN, PVN, SCN, median eminence, supraoptic nucleus and DR. VIP values were not detectable in the arcuate nucleus in any of the experimental situations examined. Lactation increased VIP concentration only in the rAHN and PVN when lactating rats with their pups were compared with virgin female diestrous rats. VIP concentration in the anterior lobe of the pituitary from lactating rats did not change with pup separation or suckling.(ABSTRACT TRUNCATED AT 250 WORDS)     

Ionotropic glutamate receptors in hypothalamic paraventricular and supraoptic nuclei mediate vasopressin and oxytocin release in unanesthetized rats

We report changes in plasma arginine vasopressin (AVP) and oxytocin (OT) concentrations evoked by the microinjection of l-glutamate (l-glu) into the hypothalamic supraoptic nucleus (SON) and paraventricular nucleus (PVN) of unanesthetized rats, as well as which local mechanisms are involved in their mediation. l-Glu microinjection (10 nmol/100 nl) into the SON increased the circulating levels of both AVP and OT. The AVP increases were blocked by local pretreatment with the selective non-N-methyl-d-aspartate (NMDA) receptor antagonist 2,3-dioxo-6-nitro-1,2,3,4-tetrahydrobenzo[f]quinoxaline-7-sulfonamide (NBQX) (2 nmol/100 nl), but it was not affected by pretreatment with the NMDA-receptor antagonist LY235959 (2 nmol/100 nl). The OT response to l-glu microinjection into the SON was blocked by local pretreatment with either NBQX or LY235959. Furthermore, the administration of either the non-NMDA receptor agonist (±)-α-amino-3-hydroxy-5-methylisoxazole-4-propionic acid hydrobromide (AMPA) (5 nmol/100 nl) or NMDA receptor agonist NMDA (5 nmol/100 nl) into the SON had no effect on OT baseline plasma levels, but when both agonists were microinjected together these levels were increased. l-Glu microinjection into the PVN did not change circulating levels of either AVP or OT. However, after local pretreatment with LY235959, the l-glu microinjection increased plasma levels of the hormones. The l-glu microinjection into the PVN after the local treatment with NBQX did not affect the circulating AVP and OT levels. Therefore, results suggest the AVP release from the SON is mediated by activation of non-NMDA glutamate receptors, whereas the OT release from this nucleus is mediated by an interaction of NMDA and non-NMDA receptors. The present study also suggests an inhibitory role for NMDA receptors in the PVN on the release of AVP and OT.     

Diurnal variation in growth hormone receptor messenger ribonucleic acid in liver and skeletal muscle of lit/+ and lit/lit mice

The present study investigated the diurnal variation in GH receptor (GHR) mRNA in liver and skeletal muscle of 3-month-old GH-deficient and -sufficient mice using quantitative real-time RT-PCR. lit/lit (GH deficient) or lit/+ (GH sufficient) mice were fed ad libitum and lights were on between 0600 and 2000. Tissues were collected at 0800-1000, 1200-1400 and 2000-2200. Hepatic GHR mRNA levels of lit/+ mice at 0800-1000 were significantly lower than those at 1200-1400 and 2000-2200. There was no significant variation in hepatic GHR mRNA of lit/lit mice. In skeletal muscle, GHR mRNA levels of both lit/+ and lit/lit mice at 1200-1400 were significantly higher than those at 0800-1000 and 2000-2200. There was also a diurnal change in hepatic IGF-I mRNA levels of lit/+ but not of lit/lit mice; the levels were lowest at 0800-1000 in lit/+ mice. On the other hand, there was no variation in IGF-I mRNA levels in skeletal muscle. These results suggest that 1) there is a diurnal variation in GHR expression in liver and skeletal muscle and the pattern of the variation is tissue specific; 2) GH deficiency blunted the diurnal variation in GHR mRNA in liver but not that in skeletal muscle; 3) IGF-I mRNA expression in liver is more closely related to GHR mRNA expression than that in skeletal muscle.     

A sex-specific endogenous stimulatory rhythm regulating prolactin secretion

In the rat, PRL secretion is under inhibitory control by tuberoinfundibular dopaminergic neurons. The levels of dopamine (DA) in hypophysial portal blood decline during surges of PRL secretion (e.g. suckling and cervical stimulation). However, this decline alone is not sufficient to account for the amount of PRL released. In this study we investigated the possible existence of an endogenous stimulatory rhythm for PRL secretion that may be masked by the tonic inhibitory tone of DA and unmasked by the DA-lowering effects of cervical stimulation. The PRL secretory response to pharmacological depression of DA-ergic tone was studied in ovariectomized (OVX) female, adult castrated (AC) male, neonatally androgen-sterilized (TP) female, and neonatally castrated (NC) male rats. Since mated rats have serum PRL surges at 0300 and 1700 h, these groups were treated with 200 micrograms/kg domperidone (DOM), iv, at 0300 h, 1700 h, or the intersurge interval, 1200 h. Serial blood samples were collected immediately before and at frequent intervals after DOM injection. OVX female rats had significantly greater serum PRL responses to DOM at 0300 and 1700 h than at 1200 h. AC male rats secreted significantly less PRL in response to DOM compared to OVX rats, and their PRL responses to DOM were similar at all three times. TP female rats had PRL secretory responses similar to those of the OVX rats at 1200 h, and the responses at 0300 and 1700 h were similar. NC male rats had PRL secretory responses similar to those of AC male rats. There was no difference between the PRL secretory profiles at any time after DOM injection in NC rats. These data provide evidence for an endogenous stimulatory rhythm for PRL secretion that is specific to female rats. They further suggest that the neonatal steroid environment is critical for differentiation of some sexually specific characteristics.     

Activation of central D-1 dopamine receptors stimulates oxytocin release in the lactating rat: evidence for involvement of the hypothalamic paraventricular and supraoptic nuclei.

The stimulatory effect of dopamine (DA) on the release of oxytocin (OT) in lactating rats is exerted at the D-1 DA receptor subtype. Because the neural loci mediating this effect have not been identified, the objective of the present studies was to test whether OT release in the lactating rat would be elevated after central administration of a D-1 DA receptor agonist into the third ventricle (3V) or directly into either the rostral paraventricular/anterior commissural nucleus area (PVN/ACN), the central paraventricular nucleus area, or the supraoptic nucleus (SON), all of which contain OT neurosecretory cells. Lactating rats were implanted with a stainless steel cannula directed into one of the above areas or into the arcuate-ventromedial region of the medial basal hypothalamus (MBH), or sites dorsal to the PVN/ACN or SON, which served as anatomical controls. After 6-7 days of recovery, each animal received an intra-atrial cannula for sequential blood sampling, and was used in experiments 24 h later. Animals were separated from their litters, and following a period of basal blood sampling, received central microinjections of either vehicle, the D-1 DA receptor agonist SKF-38393, or the D-2 DA receptor agonist quinpirole, and blood samples were removed periodically for 60 min. An injection of angiotensin II (Ang II, 100 ng) was made into each site as a positive control for OT release.(ABSTRACT TRUNCATED AT 250 WORDS)     

Involvement of endogeneous glutamate in the stimulatory effect of norepinephrine and serotonin on the hypothalamo-pituitary-adrenocortical axis

The effects of ionotropic glutamate receptor antagonists on the pituitary adrenal responses following injections of norepinephrine (NE) and serotonin (5-HT) receptor agonists into the hypothalamic paraventricular nucleus (PVN) or electrical stimulation of central NE and 5-HT pathways were studied in anesthetized male rats. PVN injections of an alpha(1)-adrenergic receptor agonist or a serotonergic 5-HT(1A) receptor agonist markedly increased both adrenocorticotropin (ACTH) and corticosterone (CS) serum levels. These responses were significantly inhibited by separate pre-injection of the selective non-NMDA and NMDA glutamate receptor subtype antagonists into the PVN in a dose-dependent manner. Electrical stimulation of either the ventral noradrenergic bundle or the dorsal raphe nucleus markedly increased serum ACTH and CS. These responses were also significantly attenuated by pre-injection of the above glutamate ionotropic receptor antagonists in a dose-dependent manner. These results suggest that glutamatergic interneurons in the PVN, acting via non-NMDA and NMDA receptors, may act as an excitatory mechanism in the NE and 5-HT control of hypothalamic ACTH secretagogues.     

Rhythmic secretion of prolactin in rats: action of oxytocin coordinated by vasoactive intestinal polypeptide of suprachiasmatic nucleus origin

Prolactin (PRL) is secreted from lactotrophs of the anterior pituitary gland of rats in a unique pattern in response to uterine cervical stimulation (CS) during mating. Surges of PRL secretion occur in response to relief from hypothalamic dopaminergic inhibition and stimulation by hypothalamic releasing neurohormones. In this study, we characterized the role of oxytocin (OT) in this system and the involvement of vasoactive intestinal polypeptide (VIP) from the suprachiasmatic nucleus (SCN) in controlling OT and PRL secretion of CS rats. The effect of OT on PRL secretion was demonstrated in cultured lactotrophs showing simultaneous enhanced secretion rate and increased intracellular Ca(2+). Neurosecretory OT cells of the hypothalamic paraventricular nucleus that express VIP receptors were identified by using immunocytochemical techniques in combination with the retrogradely transported neuronal tracer Fluoro-Gold (iv injected). OT measurements of serial blood samples obtained from ovariectomized (OVX) CS rats displayed a prominent increase at the time of the afternoon PRL peak. The injection of VIP antisense oligonucleotides into the SCN abolished the afternoon increase of OT and PRL in CS-OVX animals. These findings suggest that VIP from the SCN contributes to the regulation of OT and PRL secretion in CS rats. We propose that in CS rats the regulatory mechanism(s) for PRL secretion comprise coordinated action of neuroendocrine dopaminergic and OT cells, both governed by the daily rhythm of VIP-ergic output from the SCN. This hypothesis is illustrated with a mathematical model.     

Diminished diurnal secretion of adrenocorticotropin (ACTH), but not corticosterone, in old male rats: possible relation to increased adrenal sensitivity to ACTH in vivo

The diurnal secretion of ACTH and corticosterone was examined in chronically cannulated young (3-4 months old), middle-aged (10-12 months old), and old (22-24 months old) Fischer 344 male rats. Plasma corticosterone in young rats increased from baseline concentrations of 78 +/- 5 to a maximum of 171 +/- 24 ng/ml at 1730 h and declined to basal levels by 1930 h. Middle-aged and old rats demonstrated a similar magnitude and time course of corticosterone release. However, comparison of the relative concentrations of ACTH released during the diurnal surge revealed that old rats secreted 35% less ACTH than young or middle-aged animals (P less than 0.05). Age-related changes in the sensitivity of the adrenal gland to a submaximal dose of ACTH were tested in dexamethasone-pretreated animals at 1100 and 1700 h in a separate experiment. Plasma corticosterone levels were significantly greater after ACTH administration (1 mIU/kg ACTHAR, iv) at 1700 h in both young and old rats compared to 1100 h values (P less than 0.05), and levels 20 min post-ACTH injection at 1700 h were significantly greater in old than young or middle-aged rats at the same time (P less than 0.05). These results demonstrate that 1) there are no age-related changes in the diurnal secretion of corticosterone in Fischer 344 male rats; 2) there is a decline in the peak level of ACTH during the diurnal surge of old compared to young animals; and 3) adrenal sensitivity to ACTH at 1700 h is greater in old compared to young or middle-aged rats. We hypothesize that the greater increase in adrenal sensitivity to ACTH is responsible for the maintenance of the corticosterone rhythm in the presence of diminished ACTH concentrations in older rats.     

Effects of lesions of the suprachiasmatic and paraventricular nuclei on the inhibition of pulsatile luteinizing hormone release by exogenous vasoactive intestinal peptide in the ovariectomized rat

Vasoactive intestinal peptide (VIP) inhibits pulsatile luteinizing hormone (LH) secretion in the ovariectomized rat. Hypothalamic nuclei known to contain VIPergic neurons were destroyed electrolytically to determine whether either an increased response or a loss of response to exogenous VIP would result. Bilateral electrolytic lesions were made of either the suprachiasmatic (SCN) or paraventricular (PVN) nuclei in separate experiments; all animals received an intracerebroventricular cannula at the same time. Sham-lesioned animals were used as a control. One week later, a catheter was placed in the jugular vein of each rat and, after a recovery period of at least 2 h, blood samples were taken every 5 min for 3 h. After a control period of 1.5 h, either VIP or saline was infused into the third ventricle for an additional 1.5 h. Two doses of VIP were used: 3.5 nmol/h, previously shown to be inhibitory, and 0.4 nmol/h, which is ineffective in ovariectomized rats. LH was measured in the plasma by radioimmunoassay. The high dose of VIP lowered mean LH levels and pulse frequency but had no effect on pulse amplitude in both sham-lesioned and SCN-lesioned rats. The low dose of VIP did not affect pulsatile LH patterns in sham-lesioned rats, but did lower mean LH and pulse frequency in SCN-lesioned rats, indicating a denervation hypersensitivity subsequent to SCN lesions. Destruction of the PVN abolished the inhibitory effect of the high dose of VIP on pulsatile LH release. The low dose of VIP was ineffective in both PVN- and sham-lesioned animals.(ABSTRACT TRUNCATED AT 250 WORDS)     

Age-related changes in the diurnal rhythm of serotonin turnover in microdissected brain areas of estradiol-treated ovariectomized rats

The purpose of this study was to determine whether 1) a diurnal rhythm in serotonin turnover is present in specific hypothalamic nuclei of middle-aged ovariectomized rats and 2) in middle-aged animals exposure to estrogen can induce the pattern of serotonin dynamics which appears necessary for the occurrence of an LH surge in young rats. Young (3-4 month old) and middle-aged (8-10 month old) rats which demonstrated estrous cyclicity were bilaterally ovariectomized. Seven days later half of the young and middle-aged animals received Silastic estradiol capsules. On day 9 post ovariectomy the groups were again divided; half of the rats in each group were killed at 0800, 1200, 1800, and 2400 h. Remaining animals were treated with pargyline (75 mg/kg BW, ip) at these times and were killed 10 min later, and the following brain areas were microdissected and analyzed for serotonin (5HT) and 5-hydroxyindole acetic acid: median eminence (ME), suprachiasmatic nucleus (SCN), medial preoptic nucleus (MPN), arcuate nucleus (AN), and globus pallidus. In young ovariectomized rats the SCN, MPN, and AN exhibited a diurnal rhythm in 5HT activity which was high during the light hours and low during the dark. The diurnal rhythm could not be detected in any hypothalamic nuclei of ovariectomized middle-aged animals. The loss in the circadian component of 5HT activity is not due to a loss in serotonergic function, since overall turnover rates were not reduced compared to young animals. Estrogen treatment modified the diurnal pattern of 5HT activity in the SCN, MPN, and AN in young rats but had no effect in the middle-aged rats. In young rats, estrogen induced a transitory rise in ME-5HT turnover at 1200 h, just before the expected onset of the LH surge. In middle-aged animals the increase in ME-5HT turnover did not occur until 1800 h and correlates with a delay in the initiation of the estradiol-induced LH surge. We conclude that: 1) there is a loss in the rhythm of 5HT activity in middle-aged rats and 2) the diurnal rhythmicity of 5HT turnover may be necessary for the maintenance of normal cyclic release of LH.     

Diurnal rhythm of agouti-related protein and its relation to corticosterone and food intake

In the present study we examined the diurnal patterns of agouti-related protein (AGRP) and proopiomelanocortin (POMC) mRNA expression in the arcuate nucleus and their relation to circulating glucocorticoids and food intake. Animals were killed at 4-h intervals throughout the 24-h diurnal cycle, and the expression of AGRP and POMC mRNA was evaluated by semiquantitative in situ hybridization analysis. We observed a significant diurnal rhythm in AGRP mRNA expression, with a marked peak at 2200 h (4 h after lights off) and a trough at 1000 h (4 h after lights on), consistent with the overall day-night rhythm of food intake. In contrast, POMC mRNA levels did not show a significant fluctuation across the diurnal cycle, although there was a tendency for levels to decrease after the onset of the dark cycle. Corticosterone secretion temporally coincided with the rising phase of AGRP mRNA expression. Depletion of corticosterone by adrenalectomy abolished the AGRP diurnal rhythm by suppressing the nighttime expression, but did not alter the feeding rhythm. Exposure of adrenalectomized rats to constant corticosterone replacement (10 or 50 mg continuous release corticosterone pellet) resulted in fixed AGRP mRNA expression throughout the 12-h light, 12-h dark cycle. A relatively high level of corticosterone (50 mg) significantly increased AGRP mRNA expression, with a positive correlation between these two measures. These results indicate that 1) the diurnal expression of AGRP mRNA is regulated by corticosterone independently of the light/dark cue; and 2) a normal endogenous corticosterone rhythm is required for generating the diurnal AGRP rhythm.     

Effects of estradiol on the diurnal rhythm of serotonin activity in microdissected brain areas of ovariectomized rats

The purpose of these studies was to determine whether diurnal rhythms in serotonin (5HT) activity are detectable in individual hypothalamic nuclei of ovariectomized rats and whether estradiol induces specific rhythms of 5HT which may be necessary to cyclic release of LH and/or PRL. Young (3- to 4-month old) rats were bilaterally ovariectomized and 7 days later half the animals received Silastic estradiol capsules. Two days later groups were again divided: half the animals in each group were killed at 0800, 1200, 1800, and 2400 h. The remaining animals received pargyline (75 mg/kg body weight, ip) at these times and were killed 10 min later. The median eminence (ME), suprachiasmatic nucleus (SCN), medial preoptic area (MPN), arcuate nucleus (AN), and globus pallidus (GP) were microdissected and assayed for 5HT by HPLC using electrochemical detection. A diurnal rhythm in 5HT turnover was found in the SCN, MPN, and AN of ovariectomized rats. 5HT turnover in these areas was significantly higher during the light hours (0800, 1200, and 1800 h) compared to the dark phase (2400 h). The ME and GP of ovariectomized rats did not exhibit a diurnal rhythm in 5HT activity. Exposure to estrogen altered the pattern of 5HT activity in all hypothalamic areas examined. In the ME, treatment with estradiol increased 5HT turnover at 1200 h, just before the predicted LH and PRL surge, and suppressed activity at all other times. In the SCN, estradiol reversed the 5HT rhythm: turnover was low during the light hours and high during the dark. In the AN and MPN, estradiol treatment increased 5HT activity and abolished the diurnal rhythm. 5HT activity in the GP was not altered by exposure to estrogen. We conclude from these data that specific brain nuclei exhibit diurnal rhythms in 5HT turnover and that the patterns of 5HT activity in specific hypothalamic nuclei exhibit individual and unique responses to the presence of estrogen. These data suggest that the estradiol-induced diurnal pattern of 5HT activity may be necessary for the induction of cyclic release of LH and/or PRL.