Effects of Repeated Administration of Estradiol Benzoate on Tubero-Infundibular GABAergic Activity in Male Rats

Repeated (once a day for 8 days) but not single administration of estradiol benzoate (10 micrograms/kg, s.c.) induced a sevenfold increase in anterior pituitary gamma-aminobutyric acid (GABA) concentration in male rats. GABA concentration also increased in the median eminence whereas no changes or decreases were observed in other brain regions including hypothalamic arcuate nucleus, lateral septum, hippocampus, caudate nucleus, and substantia nigra. Eight-day estradiol benzoate injection also enhanced the Vmax of median eminence glutamate decarboxylase activity without affecting the Km of the enzyme for glutamic acid. Taken together, these results suggest that repeated administration of estradiol benzoate increases the activity of the tubero-infundibular GABAergic system in male rats.     

Immunoreactive substance P content in median eminence and pituitary gland during oestrus, dioestrus and after anterior hypothalamic deafferentation

The aim of the present study was to find a relation between the Substance P (SP) content in the median eminence and the pituitary gland in rats and hypothalamic regulaton of the oestrus cycle. SP content was measured by radioimmunoassay in female rat pituitary and median eminence during oestrus, dioestrus and after anterior hypothalamic deafferentation. SP content in rat's pituitary did not vary significantly among individual groups of animals. The greatest average SP content in rat's median eminence was found in dioestrus. Both during cyclic and constant oestrus resulting from anterior hypothalamic deafferentation SP content in median eminence was lower than in dioestrus. This fact indicates the possibility of SP involvement in the control of cyclic LH-RH release from hypothalamus.     

Immunocytochemical localization of LHRH in the median eminence,infundibular stalk,and neurohypophysis

Summary The distribution of luteinizing hormone-releasing hormone (LHRH) was studied by light-microscopic immunocytochemistry in the hypothalamo-pituitary complex of humans, monkeys, ferrets, bats, and rats. LHRH-immunoreactive fibers were identified in the median eminence of all these species, but the precise location of these fibers varied. In rats, the vast majority of LHRH fibers in the median eminence was confined to the external zone. In contrast, in bats, most of the LHRH fibers were located in the internal zone. While these two species represent opposite extremes in distribution of LHRH fibers within the median eminence, intermediate conditions were found in humans, monkeys, and ferrets, as considerable numbers of fibers occurred in both internal and external zones. In addition to fibers in the median eminence, large numbers of LHRH-immunoreactive fibers were identified traversing the infundibular stalk and entering the neural lobe of the pituitary in all species examined except the rat. In rats, only occasional fibers were observed in the infundibular stalk, and they did not project into the neural lobe. However, in humans, monkeys, ferrets, and bats, groups of LHRH-immunoreactive fibers extended well into the substance of the posterior pituitary. Most of these fibers appeared to terminate near the adenohypophysis, but others coursed away from the anterior lobe and penetrated deeper portions of the neural lobe. These observations, made in several mammalian species, indicate that multiple routes may exist in the median eminence/stalk/pituitary complex for the delivery of LHRH to the anterior pituitary.     

Retention of radioactive substances in the hypothalamus, anterior pituitary, and reproductive organs of male rats after 3H-melatonin administration

Radioactive concentrations were determined in serum, lung, hypothalamus, anterior pituitary, testis, and accessory sex organs of adult male rats at 2, 20, 30 and 60 min after intravenous 3H-melatonin administrations. The retention patterns of 3H-melatonin and other radioactive substance (3H-non-melatonin) in these tissues were compared. The anterior pituitary demonstrated best tissue retention with highest concentration of 3H-melatonin. The testis and prostate gland accumulated 3H-non-melatonin in an increasing manner from 2 to 60 min. The radioactive substances were also preferentially and progressively located in the nuclear fraction of the anterior pituitary, hypothalamus, testis, and prostate gland. This study leads to the following suggestions: the anterior pituitary is another target organ of melatonin; melatonin is converted into other active material which exerts its action in the testis and prostate gland; melatonin and its active derivative exert their action through the nuclei of their respective cells.     

Monoamine oxidase activity in the hypothalamus and various other brain areas and in some endocrine glands of the rat during the estrus cycle

—The activity of monoamine oxidase (MAO, EC 1.4.3.4) was measured in the entire hypothalamus and different hypothalamic regions, in the amygdala, frontal and lateral cerebral cortex, in the pituitary, adrenals and genital organs of male rats and of female rats during the estrus cycle. Activity of MAO changed cyclically in the hypothalamus, amygdala, adrenals and ovaries. The highest levels in the hypothalamus occurred at 10 a.m. on the day of proestrus and during estrus. The lowest levels occurred at 6 p.m. on the day of proestrus, of metestrus and during diestrus. Cyclical variations similar to those found in the whole hypothalamus were also observed in anterior, posterior and lateral portions and the median eminence of the hypothalamus. Activity in the median eminence was greater than that of the whole hypothalamus or its various other portions. The amygdala exhibited less marked cyclical activity which followed the pattern of the hypothalamus by increasing at 10 a.m. and peaking at 3 p.m. on the day of proestrus. At the‘post-critical’period of proestrus, when the activity of MAO in the hypothalamus and amygdala decreased, the activity of MAO in the ovaries and adrenals rose. During the estrus cycle much lower levels of activity of MAO were demonstrated in other regions of the brain (frontal and lateral cerebral cortex), in the pituitary and in the uterus, none of which showed cyclical changes. The changes in activity of MAO in cerebral tissues, endocrine glands and genital organs have been discussed in relation to the probable participation of monoamines in the mechanism(s) of secretion of gonadotrophins by the hypothalamus.     

Melanin-concentrating hormone stimulates the release of luteinizing hormone-releasing hormone and gonadotropins in the female rat acting at both median eminence and pituitary levels

The purpose of this study was to investigate whether melanin-concentrating hormone (MCH) acts directly on the median eminence and on the anterior pituitary of female rats regulating LHRH and gonadotropin release. In addition, immunohistochemistry was used to examine the density and distribution of MCH-immunoreactive fibers in the median eminence of proestrous rats. MCH-immunoreactive fibers were found in both the internal and external layers of the median eminence and in close association with hypophysial portal vessels. In the first series of in vitro experiments, median eminences and anterior pituitaries were incubated in Krebs-Ringer bicarbonate buffer containing two MCH concentrations (10(-10) and 10(-8) M). The lowest MCH concentration (10(-10) M) increased (P < 0.01) LHRH release only from proestrous median eminences. Anterior pituitaries incubated with both MCH concentrations also showed that 10(-10) M MCH increased gonadotropin release only from proestrous pituitaries. In the second series of experiments, median eminences and pituitaries from proestrous rats were incubated with graded concentrations of MCH. MCH (10(-10) and 10(-9) M) increased (P < 0.01) LHRH release from the median eminence, and only 10(-10) M MCH increased (P < 0.01) LH and FSH release from the anterior pituitary. The effect of MCH on the stimulation of both gonadotropins from proestrous pituitaries was similar to the effect produced by LHRH. Simultaneous incubation of pituitaries with MCH and LHRH did not modify LH but increased the FSH release induced by LHRH. The present results suggest that MCH could be involved in the regulation of preovulatory gonadotropin secretion.     

Differential effects of morphine on the rates of dopamine turnover in the neural and intermediate lobes of the rat pituitary gland

The acute administration of morphine to male rats decreased the rate of dopamine turnover in the median eminence and in the neural lobe of the pituitary, but was without effect in the intermediate lobe of the pituitary. Pretreatment with the opiate antagonist, naltrexone, reduced the effects of morphine. These results indicate that morphine, by acting on opiate receptors, inhibits the activity of tuberoinfundibular dopaminergic neurons that terminate in the median eminence and those tuberohypophysial dopaminergic neurons that terminate in the neural lobe of the pituitary.     

Corticotropin-releasing hormone and pituitary-adrenocortical responses in chronically stressed rats

Brain corticotropin-releasing hormone (CRH) concentration and pituitary adreno-cortical responses were examined in chronically stressed rats: body restraint stress (6 h/day) for 4 or 5 weeks. Stressed rats showed a reduction in weight gain. CRH concentration in the median eminence and the rest of the hypothalamus were not different between control and chronically immobilized rats. The anterior pituitary adenocorticotropic hormone (ACTH) concentration was elevated in chronically stressed rats, whereas plasma ACTH and corticosterone levels did not differ from the control values. The median eminence CRH concentration was reduced to the same extent at 5 min after onset of ether exposure (1 min) in chronically immobilized rats and controls. However, plasma ACTH and corticosterone showed greater responses to ether stress in chronically immobilized rats than in control rats. Plasma ACTH and corticosterone responses to exogenous CRH were not different between control and chronically immobilized rats, while the response to arginine vasopressin (AVP) was significantly greater in chronically immobilized rats. These results suggest that chronic stress caused an increase in the ACTH-secreting mechanism and that pituitary hypersensitivity to vasopressin might at least be partly responsible for this.     

Isolated aplasia of the anterior pituitary as a cause of congenital panhypopituitarism. Case report.

We document a male infant with congenital panhypopituitarism as detected at birth, in whom the adenohypophysis was totally absent by magnetic resonance imaging and all the anterior pituitary hormones were undetectable. His neurohypophysis was, by contrast, identified ectopically at the median eminence and antidiuretic hormone was appropriately secreted.     

Galanin: evidence for a hypothalamic site of action to release growth hormone

Galanin is a 29 amino acid peptide that was isolated and characterized from porcine intestinal extracts. The presence of galanin-like immunoreactivity in neuronal elements in the hypothalamus and median eminence suggested a role for it in the hypothalamic control of anterior pituitary function. A hypothalamic site of action of galanin to stimulate growth hormone (GH) release is suggested by our observation that doses as low as 50 picomoles when infused into the third cerebroventricle of conscious, unrestrained ovariectomized rats resulted in significantly elevated plasma levels of GH. This effect was specific for GH and was dose-related. The failure of galanin to alter GH release from dispersed, cultured anterior pituitary cells in vitro further suggests that endogenous galanin plays a neuromodulatory role at the level of the median eminence, possibly affecting the release of known GH-releasing and/or inhibiting factors.     

Anterior and posterior groups of portal vessels in the avian pituitary: incidence in forty nine species.

The hypophyseal portal vessels were studied in forty nine species of birds. The primary capillary plexus in the median eminence is single or divided into an anterior and a posterior plexus. Irrespective of whether the primary capillary plexus is single or divided, distinct, non-interconnected anterior and posterior groups of portal vessels are present in all the species investigated. The anterior group of portal vessels originates in the anterior region of the median eminence and breaks up into capillaries in the cephalic lobe of the pars distalis; the posterior group of portal vessels originates in the posterior region of the median eminence and breaks up into capillaries in the caudal lobe of the pars distalis. This type of regional distribution of portal vessels appears to be of general occurrence in the avian pituitary. The median eminence in the species investigated shows an AF-positive anterior region and an AF-negative posterior region. The pars distalis is differentiated into histologically distinct cephalic and caudal lobes. The arrangement of the portal vessels into anterior and posterior groups provides morphological basis for the view that the functions of the cephalic lobe may be controlled by the anterior median eminence, whereas those of the caudal lobe may be controlled by the posterior median eminence. However, experimental data available to date do not suggest a physiological significance to the widespread incidence of the regional distribution of portal vessels in the avian pituitary.     

Studies on hypothalamo-pituitary corticoliberin system. II. Corticotropin-releasing factor (CRF) and neurophysin (NP) immunoreactive neurocytes in the hamster

The aim of the study was to investigate CRF- and neurophysin-immunoreactive neurocytes in hypothalamo-pituitary system of the hamster. CRF-immunoreactive nerve fibers were observed mainly in the outer layer of the median eminence and pituitary stalk and also in the neurohypophysis. On the contrary, neither intermediate lobe nor anterior pituitary contained CRF-immunoassayable substance. The pattern of distribution of neurophysin-immunoreactive fibres was different from CRF-immunoreactive fibres as far as a median eminence, pituitary stalk and neurohypophysis are concerned. Between the tannocytes of the III ventricle and nervous fibres forming the internal layer of the median eminence a CRF- and neurophysin-immunoreactive perikaryons of neurocytes were found. Results of the study suggest regulatory function of CRF-immunoreactive neurons of the hamster hypothalamo-pituitary system in controlling of ACTH secretion. Moreover, the distribution of CRF-immunoreactive substances in hamster hypothalamo-pituitary system shows some peculiarities if compared with other rodents.     

Studies of the hypothalamo-hypophyseal corticoliberin system. VII. Effect of ether stress and dexamethasone on the hypothalamo-hypophyseal-adrenal axis]

The effect of ether stress and dexamethasone on hypothalamo-hypophyseal-adrenal axis was investigated in sexually mature male Wistar rats. Separate group of rats was subjected to ether stress during 2 minutes. The remaining animals were treated with dexamethasone during 7 days. CRF-immunoreactive and vasopressin-immunoreactive neurons were detected within paraventricular nuclei and median eminence by using specific antibodies. Body weight of the rats as well as the weights of pituitary and adrenal glands were also measured. The levels of ACTH and corticosterone were determined in blood serum. It was found that the ether stress caused a considerable decrease in the amount of CRF-immunopositive substances in the outer layer of median eminence and a decrease in the amount of vasopressin-immunoreactive neurocytes in the parvocellular fragment of paraventricular nuclei. Dexamethasone administration caused an increase in the amount of CRF-immunopositive perikaryons within paraventricular nuclei and also an increase in vasopressin-immunopositive nerve fibers in median eminence.     

Sexual differences in the activity of periventricular-hypophysial dopaminergic neurons in rats.

The activities of periventricular-hypophysial dopaminergic (DA) neurons were compared in male and female rats by measuring dopamine synthesis (accumulation of 3,4-dihydroxyphenylalanine [DOPA] after inhibition of L-aromatic amino acid decarboxylase) and metabolism (concentrations of 3,4-dihydroxyphenylacetic acid [DOPAC]) in terminals of these neurons in the intermediate lobe of the pituitary. For comparison, the synthesis and metabolism of dopamine in the neural lobe of the pituitary and median eminence were also determined. The concentrations of DOPAC and accumulation of DOPA were higher in females than in males in both the intermediate lobe and median eminence, revealing a sexual difference in the basal activity of periventricular-hypophysial and tuberoinfundibular DA neurons. In contrast, there were no differences between male and female rats in activity of DA neurons terminating in the neural lobe. One week following gonadectomy, DOPA accumulation in the median eminence was decreased in females and increased in males, but remained unchanged in the intermediate lobe. These results indicate that sexual differences in the activity of periventricular-hypophysial DA neurons terminating in the intermediate lobe are not dependent upon the presence of circulating gonadal steroids, and in this respect, these neurons differ from tuberoinfundibular DA neurons.     

Immunocytochemical study of the GABAergic innervation of the mouse pituitary by use of antibodies against gamma-aminobutyric acid (GABA)

Summary The GABAergic innervation of the mouse pituitary, including the median eminence, was studied at light microscopic and ultrastructural levels by use of a pre-embedding immunocytochemical technique with antibodies directed against GABA. In the median eminence, a high density of GABA-immunoreactive fibers was found in the external layer where the GABAergic varicosities were frequently observed surrounding the blood vessels of the primary capillary plexus. In the internal and subependymal layers, only few fibers were immunoreactive. The intense labeling of the external layer was observed in the entire rostro-caudal extent of the median eminence. In the pituitary proper, a dense network of GABA-immunoreactive fibers was revealed throughout the neural and intermediate lobes, entering via the hypophyseal stalk. The anterior and tuberal lobes were devoid of any immunoreactivity. The GABA-immunoreactive terminals were characterized in the median eminence, and in the intermediate and posterior lobes at the electron-microscopic level. They contained small clear vesicles, occasionally associated with dense-core vesicles or neurosecretory granules. In the intermediate lobe they were seen to be in contact with the glandular cells. In the posterior lobe and in the median eminence, GABA-immunoreactive terminals were frequently located in the vicinity of blood vessels. These results further support the concept of a role of GABA in the regulation of hypophyseal functions, via the portal blood for the anterior lobe, directly on the cells in the intermediate lobe, and via axo-axonic mechanisms in the median eminence and posterior lobe.     

Immunofluorescence of somatostatin-producing sites in the hypothalamus of the tadpole,Alytes obstetricans Laur.

Summary Three sites of somatostatin-synthesizing perikarya, or a related antigen, were determined by immunofluorescence in the hypothalamus of the tadpole, Alytes obstetricans (Amphibia, Anura). Two sites of neurosecretory perikarya were localized in the preoptic nuclei of the anterior hypothalamus; the axons extended either to the anterior diencephalon or to the median eminence and the pituitary. The third site was found in the posterior hypothalamus. These neurosecretory cells showed a strong immunofluorescent reaction; their axons all terminated at the level of the median eminence. Somatostatin cells were only found in intact or hypophysectomized tadpoles given somatotropin (STH). The strong reaction observed in hypophysectomized tadpoles was possibly due to the loss of the terminal portion of the neurosecretory pathway (median eminence and pituitary) by which the agent is transported to the site of discharge.     

Effects of Neuropeptide Y (NPY) on the release of anterior pituitary hormones in the rat

Neuropeptide Y (NPY) has been recently localized in several hypothalamic nuclei in the mammalian brain. In order to investigate the possible role of NPY on neuroendocrine function, we have investigated the effects of the peptide on the release of anterior pituitary hormones in the rat. Both intravenous (300 μg) or intraventricular (2 to 15 μg) injection of NPY produced in gonadectomized male rats a significant and long-lasting decrease of plasma LH levels. A short duration stimulating effect on prolactin plasma levels was also observed after the intravenous but not after the intraventricular injection of NPY. Plasma levels of the other pituitary hormones were not significantly modified after NPY injection. When incubated in vitro with anterior pituitary cells in monolayer culture, NPY produced no significant change in release of pituitary hormones. Thus NPY seems to exert a selective effect on LH release. Since this effect can be observed after both intravenous and intraventricular injection, it might be hypothesized that NPY could affect LHRH release in two areas which lack blood-brain barrier: the organum vasculosum of the lamina terminalis (OVLT) which contains LHRH cell bodies and NPY fibers and the median eminence which contains both LHRH and NPY fibers. The effect on prolactin release needs to be carefully evaluated in different experimental conditions.     

Possible role of glutamate, aspartate, glutamine, GABA or taurine on cadmium toxicity on the hypothalamic pituitary axis activity in adult male rats

This work was designed to evaluate the possible changes in glutamate, aspartate, glutamine, GABA and taurine within various hypothalamic areas the striatum and prefrontal cortex after oral cadmium exposure in adult male rats, and if these changes are related to pituitary hormone secretion. The contents of glutamine, glutamate, aspartate, GABA and taurine in the median eminence, anterior, mediobasal and posterior hypothalamus, and in prefrontal cortex in adult male rats exposed to 272.7 mol l^–1 of cadmium chloride (CdCl₂) in the drinking water for one month. Cadmium diminished the content of glutamine, glutamate and aspartate in anterior hypothalamus as compared to the values found in the untreated group. Besides, there is a decrease in the content of glutamate, aspartate and taurine in the prefrontal cortex. The amino acids studied did not change in median eminence, mediobasal and posterior hypothalamus or the striatum by cadmium treatment. Plasma prolactin and LH levels decreased in rats exposed to the metal. These results suggest that (1) cadmium differentially affects amino acid content within the brain region studied and (2) the inhibitory effect of cadmium on prolactin and LH secretion may be partially explained by a decrease in the content of both glutamate and aspartate in anterior hypothalamus, but not through changes in GABA and taurine.     

Daily Changes of GABA and Taurine Concentrations in Various Hypothalamic Areas Are Affected by Chronic Hyperprolactinemia

This study was designed to characterize, in anterior, mediobasal, and posterior hypothalamic and median eminence, the 24h changes of gamma aminobutyric acid (GABA) and taurine (TAU) contents in adult male rats and to analyze whether chronic hyperprolactinemia may affect these patterns. Rats were turned hyperprolactinemic by a pituitary graft. Plasma prolactin (PRL) levels increased after pituitary grafting at all time points examined. A disruption of the circadian rhythm was observed in pituitary-grafted rats, whereas GABA and TAU content followed daily rhythms in all areas studied in controls. In the mediobasal hypothalamus, two peaks for each amino acid were found at midnight and midday. In the anterior hypothalamus, GABA and TAU showed only one peak of concentration at midnight. In the posterior hypothalamus, the values of both GABA and TAU were higher during the light as compared to the dark phase of the photoperiod. In the median eminence GABA content peaked at 20:00h, the time when TAU exhibited the lowest values. Hyperprolactinemia abolished the 24h changes of GABA in the mediobasal hypothalamus and reduced its content as compared to controls. Hyperprolactinemia advanced the diurnal peak of TAU to 12:00h in the mediobasal hypothalamus and did not modify the 24:00h peak. In the anterior hypothalamus, hyperprolactinemia increased GABA and TAU contents during the light phase while it decreased them during the dark phase of the photoperiod. In the posterior hypothalamus hyperprolactinemia did not modify GABA or TAU patterns as compared to controls. In the median eminence hyperprolactinemia increased the 20:00h peak of GABA and shift advanced the decrease in TAU content at 20:00h and its maximum at 24:00h as compared to controls. These data show that GABA and TAU content exhibit specific daily patterns in each hypothalamic region studied. PRL differentially affects the daily pattern of these amino acids in each hypothalamic region analyzed.     

Daily changes of GABA and taurine concentrations in various hypothalamic areas are affected by chronic hyperprolactinemia

This study was designed to characterize, in anterior, mediobasal, and posterior hypothalamic and median eminence, the 24h changes of gamma aminobutyric acid (GABA) and taurine (TAU) contents in adult male rats and to analyze whether chronic hyperprolactinemia may affect these patterns. Rats were turned hyperprolactinemic by a pituitary graft. Plasma prolactin (PRL) levels increased after pituitary grafting at all time points examined. A disruption of the circadian rhythm was observed in pituitary-grafted rats, whereas GABA and TAU content followed daily rhythms in all areas studied in controls. In the mediobasal hypothalamus, two peaks for each amino acid were found at midnight and midday. In the anterior hypothalamus, GABA and TAU showed only one peak of concentration at midnight. In the posterior hypothalamus, the values of both GABA and TAU were higher during the light as compared to the dark phase of the photoperiod. In the median eminence GABA content peaked at 20:00h, the time when TAU exhibited the lowest values. Hyperprolactinemia abolished the 24h changes of GABA in the mediobasal hypothalamus and reduced its content as compared to controls. Hyperprolactinemia advanced the diurnal peak of TAU to 12:00h in the mediobasal hypothalamus and did not modify the 24:00h peak. In the anterior hypothalamus, hyperprolactinemia increased GABA and TAU contents during the light phase while it decreased them during the dark phase of the photoperiod. In the posterior hypothalamus hyperprolactinemia did not modify GABA or TAU patterns as compared to controls. In the median eminence hyperprolactinemia increased the 20:00h peak of GABA and shift advanced the decrease in TAU content at 20:00h and its maximum at 24:00h as compared to controls. These data show that GABA and TAU content exhibit specific daily patterns in each hypothalamic region studied. PRL differentially affects the daily pattern of these amino acids in each hypothalamic region analyzed.