Twenty-four hour rhythm of plasma prolactin in female rabbit pups. Correlation with hypothalamic and adenohypophysial dopamine, serotonin, gamma-aminobutyric acid and taurine content

Lactation in the rabbit is a nocturnal activity, extremely short and regular, that can be a strong synchronizer for the development of circadian rhythmicity in the pups. In the present study, 24-h rhythmicity of plasma prolactin and median eminence and anterior pituitary content of dopamine (DA), serotonin (5HT), gamma-aminobutyric acid (GABA) and taurine were examined in 11 days old female pups kept under 16 h light:8 h dark photoperiods (lights on at 08:00 h). Groups of six to seven female rabbit pups were killed by decapitation at six different time points throughout a 24-h cycle, starting at 09:00 h. Plasma prolactin levels changed significantly throughout the day, showing two peaks, one at first half of rest span (at 13:00 h) and another one at the beginning of the scotophase (at 01:00 h), just preceding doe visit. Median eminence DA content changed in a bimodal way as a function of time of day, displaying two maxima, at the beginning of the rest span and of the activity phase. Median eminence DA and plasma prolactin correlated significantly in an inverse way. Two maxima in median eminence 5HT levels were found, about 4 h in advance to the prolactin peaks. Circulating prolactin correlated inversely with median eminence 5HT content and directly with adenohypophysial 5HT content. Median eminence GABA content reached its maximum at the beginning of the scotophase and correlated significantly with plasma prolactin concentration. A positive correlation between plasma prolactin and adenohypophysial taurine content was observed. These results show that the circadian rhythmicity in prolactin secretory mechanisms in female rabbit pups develops during the early neonatal life.     

Secretin in the rat hypothalamo-pituitary system: Localization,identification and characterization

Secretin-like immunoreactivity (SLI) has been identified and characterized in the pituitary of the rat. The concentration in the neurointermediate lobe is about 45 fold higher than the concentration of SLI observed in the anterior lobe. Transections of the pituitary stalk of the rat caused a significant depletion of SLI in the neurointermediate lobe without affecting the content in the anterior lobe. In view of the relatively high concentration of SLI reported to occur in the hypothalamus, it appears that there may be a secretinergic pathway between the brain and the neurointermediate lobe of the pituitary.     

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.     

Effect of aging on 24-hour changes in dopamine and serotonin turnover and amino acid and somatostatin contents of rat corpus striatum

This study examined the 24-hour changes in a number of transmitters in the corpus striatum of young and middle-aged male Wistar rats. The contents of excitatory amino acids (glutamate, aspartate) and inhibitory amino acids (gamma-aminobutyric acid, GABA; taurine, glycine) and of somatostatin were measured in 2-month- and 18- to 20-month-old rats killed at six different time points along the 24-hour cycle. The striatal serotonin and dopamine turnover was also measured. Both young and middle-aged rats showed significant 24-hour variations in striatal glutamate and aspartate contents; only in young rats these variations fitted a cosine function, with acrophase during the first part of rest span. Mesor values of striatal excitatory amino acid contents were lowest in middle-aged rats. Significant 24-hour variations in striatal contents of GABA, taurine, and glycine occurred in young rats, while only striatal GABA exhibited 24-hour changes in middle- aged rats (acrophases during the first part of rest span). For every inhibitory transmitter, the mesor values in middle-aged rats were significantly lower than in young rats. The 24-hour variation of the striatal somatostatin content showed acrophase during the first part of rest span, mesor values and amplitude being lowest in middle-aged rats. Aging rats exhibited significantly higher mesor values of striatal serotonin turnover (34% increase) and lower mesor values of dopamine turnover (69% decrease) than their younger counterparts. Some of the circadian modifications of motor function seen in aging rats could be related to the striatal transmitter changes reported herein.     

Immunoreactive dynorphin-like material in rat pituitary after ovariectomy

Ovariectomy caused a significant increase of immunoreactive dynorphin-like material (IR-DYAN) in the anterior pituitary lobe of intact as well as of medial basal hypothalamus-lesioned rats. No change of IR-DYAN was observed in the neurointermediate lobe of the gland or in the hypothalamus. Estradiol benzoate reversed the increase of anterior pituitary IR-DYAN induced by ovariectomy and caused a reduction in sham-ovariectomized rats.     

Monoamine and amino acid content in brain regions of Brattleboro rats

Monoamine and amino acid content were measured in brain regions from 12 week old male, homozygous Brattleboro (DI,n=12) and Long-Evans control (LE,n=12) rats. Norepinephrine (NE) content was significantly elevated (16–25%) in the spinal cord, pons-medulla and anterior hypothalamus of DI rats when compared to LE controls. NE content of the neurointermediate lobe of pituitary in DI rats was almost twice that of LE controls. Serotonin content was also significantly elevated in the spinal cord, pons-medulla, anterior hypothalamus and forebrain of DI rats relative to the LE controls. Taurine content in DI rats was increased (31–42%) above that of LE rats in the anterior hypothalamus, striatum and forebrain. Glutamine content was also greater in DI rats than LE in the spinal cord, pons-medulla, anterior hypothalamus, striatum, hippocampus and forebrain. The changes in monoamine and amino acid content were discussed in relation to the cardiovascular and osmoregulatory deficits that are present in DI rats due to arginine vasopressin (AVP) deficiency. The possible role of AVP in modulating NE turnover was also discussed. The increase in brain TAU content in DI rats may be a physiological response to hypernatremia.     

Twenty-four-Hour Rhythms of Serum Acth,Prolactin, Growth Hormone,and Thyroid-Stimulating Hormone,and of Median-Eminence Norepinephrine,Dopamine, and Serotonin,in Rats Injected with Freund's Adjuvant

The effect of Freund's adjuvant injection on 24-h variation of circulating ACTH, prolactin, growth hormone (GH), and thyroid-stimulating hormone (TSH) levels, and of norepinephrine (NE) content, and dopamine (DA) and serotonin (5HT) turnover in median eminence, was examined in adult rats kept under light between 0800 and 2000 h daily. Groups of 6–10 animals Freund's complete adjuvant or its vehicle at 1 lOOh 3 days before sacrifice and were killed by decapitation at six different time intervals throughout a 24-h cycle. In rats injected with adjuvant's vehicle, serum ACTH and prolactin exhibited peak values around the light-dark transition (p < 0.0001 and < 0.04, respectively), while the maximum in TSH was found in the late afternoon (p < 0.0001, one-way ANOVA). GH levels did not vary on a 24-h basis. In Freund's adjuvant-injected rats, 24-h variations of TSH levels became blunted, while 24-h variations of prolactin and ACTH persisted. Freund's adjuvant augmented serum ACTH and prolactin levels, and decreased GH and TSH levels (p < 0.0007, factorial ANOVA). Median-eminence NE content, and turnover of DA, assessed by measuring dihydroxyphenylacetic acid, DOPAC/DA ratio, and of 5HT, assessed by measuring 5-hydroxyindoleacetic acid, HIAA/5HT ratio, varied on a 24-h basis in rats receiving adjuvant's vehicle (p < 0.02). Median-eminence NE content attained its maximum at 1600–2000 h, while maxima in DOPA/DA and HIAA/5HT ratios occurred at 0400 h. Injection with Freund's adjuvant reduced the amplitude of the daily variation of NE content, shifted the maximum of DOPAC/DA ratio toward the light-dark transition, and blunted the daily variation in HIAA/5HT ratio in median eminence. The administration at 1200 of the immunosuppressant drug cyclosporine (5 mg/kg, 5 days) restored the augmented ACTH and prolactin levels (p < 0.0001, factorial ANOVA) and depressed GH and TSH levels (p < 0.02) found in Freund's adjuvant-injected rats. Cyclosporine was also effective in restoring 24-h rhythmicity of serum ACTH and TSH, but not of prolactin, levels. Cyclosporine did not modify the effect of Freund's adjuvant on time-of-day changes of median-eminence NE content, but it was effective in counteracting the changes of DA and 5HT turnover found after immunization. The results are compatible with a significant effect of immune-mediated inflammatory response at an early phase after Freund's adjuvant injection on ACTH, GH, prolactin, and TSH release, which is partially sensitive to immunosuppression by cyclosporine. (Chronobiology International, 14(3), 253–265, 1997)     

Glucocorticoid regulation of proopiomelanocortin messenger ribonucleic acid content of rat hypothalamus

We have verified the possibility that the POMC gene of the rat hypothalamus might be subject to regulation by glucocorticoids. Adrenalectomy increased the concentration of POMC mRNA in anterior pituitary and in hypothalamus, but not in the neurointermediate lobe of the pituitary gland. Dexamethasone and, to a slightly lesser extent, corticosterone treatments reversed the adrenalectomy-induced increase in POMC mRNA concentrations in both anterior pituitary and hypothalamus. Dexamethasone caused a slight decrease of POMC mRNA levels in the neurointermediate lobe of the pituitary gland, while corticosterone had no effect. These results indicate that the POMC gene of the rat brain hypothalamus is also under negative control by glucocorticoids.     

Eight weeks of streptozotocin-induced diabetes influences the effects of cold stress on immunoreactive beta-endorphin levels in female rats

Cold stress produced a significant reduction in the concentration of immunoreactive beta-endorphin (IR-BE) in the anterior pituitary of diabetic female rats. IR-BE levels in the anterior pituitary of non-diabetic female rats were not affected by exposure to the cold. The effects of cold stress on IR-BE levels in the neurointermediate lobe of the pituitary and the hypothalamus were attenuated in diabetic as compared to control animals. These data suggest that in female rats, eight weeks of diabetes produced alterations in the neuroendocrine mechanisms which modulate IR-BE levels in the pituitary and hypothalamus in response to cold stress.     

Inbred strains of mice with variable sensitivity to ethanol exhibit differences in the content and processing of beta-endorphin

The content of beta-endorphin-like immunoreactivity (beta-EPLIR) in the anterior and neurointermediate lobe of the pituitary gland, the hypothalamus and the serum of the c57BL/6, BALB/C and DBA/2 inbred strains of mice was estimated at the resting state as well as 45 min after i.p. injection of either ethanol solution (3.0 g/kg.b.wt.) or saline. At the resting state, the neurointermediate lobe and the serum of the c57BL/6 mice showed the highest content of beta-EPLIR, while no statistically significant difference was noticed in the total beta-EPLIR content in the anterior lobe and hypothalamus. At 45 min post-ethanol treatment the beta-EPLIR content was increased in the serum of all three strains of mice studied and was decreased in the hypothalamus of the c57BL/6 mice only. Further analysis of the beta-endorphin peptides using sephadex G-75 chromatography and reverse phase high performance liquid chromatography indicated strain differences in the relative proportions of the various forms of beta-endorphin in the anterior lobe, neurointermediate lobe and the hypothalamus. These strain specific differences in the content and post-translational processing of beta-endorphin may be involved in some of the genetically determined differences in responses to ethanol by these inbred strains of mice.     

Bromocryptine prevents the decline in tuberoinfundibular neuronal release of dopamine after removal of chronic estrogen treatment

Prolonged exposure to estradiol 17-beta (E2) in rats has been shown to decrease dopamine (DA) synthesis in and release from tuberoinfundibular dopaminergic (TIDA) neurons in Fischer 344 rats. The objective of the present study was to determine whether inhibition of the E2-induced increase in anterior pituitary (AP) weight and prolactin (PRL) secretion by concomitant administration of the dopaminergic agonist, bromocryptine, could prevent the decrease in TIDA neuronal function produced by chronic E2 administration. TIDA neuronal function was evaluated by in vitro superfusion and electrical stimulation of median eminence (ME) tissue after allowing for accumulation of [3H]dopamine (DA). The effect of chronic E2 and/or bromocryptine treatment on catecholamine content in tuberohypophyseal neurons in the neurointermediate lobe was also measured to determine whether increased pituitary size possibly damaged the tuberohypophyseal neurons. Treatment with E2 for 30 days significantly increased AP weight, serum PRL concentration, and AP PRL and DNA content over values in non-E2-treated controls. When bromocryptine was injected daily during E2 treatment, bromocryptine completely inhibited the E2-induced increase in serum PRL and AP DNA content, and AP weight was only moderately increased. The evoked release of 3H at the end of the 30-day E2 treatment was reduced during electrical stimulation and there was no augmented release of 3H from the ME tissue after 10 microM nomifensine infusion in E2-treated rats and in rats given both bromocryptine and E2. However, neurointermediate lobe DA content was diminished only in E2-treated rats and not in animals given bromocryptine together with E2. When all treatments were discontinued for 30 days, animals previously given only E2 showed sustained increases in AP weight, serum PRL levels, and AP PRL and DNA content, but reduced stimulation-evoked release of 3H, absence of response to nomifensine, and reduced neurointermediate lobe DA and norepinephrine content when compared with values in non-E2-treated controls. After withdrawal of E2 treatment for 30 days, animals previously given bromocryptine and E2 together were not different from control animals in any of the parameters measured. These results suggest that the decline in TIDA neuronal release of DA induced by chronic E2 treatment was at least partly exerted via the marked hyperprolactinemia and/or by compression of the medial basal hypothalamus by the enlarged AP.     

Immunoreactive beta-endorphin in the plasma, pituitary and hypothalamus of young female rats on the day of estrus and intact and chronically castrated old constant estrous female rats

Immunoreactive beta-endorphin (IR-beta-ENDO) was compared in the plasma, pituitary and hypothalamus of young female rats on the day of estrus and old constant estrous (CE) female rats, and in intact and chronically castrated old CE female rats. The concentration of IR-beta-ENDO in the plasma and the content and concentration of IR-beta-ENDO in the neurointermediate lobe of the pituitary were significantly greater in the old CE female rats than in the young female rats on the day of estrus. The content and concentration of IR-beta-ENDO in the anterior pituitary and hypothalamus were similar in the two age groups. To determine if estrogen contributed to the increase in plasma and pituitary levels of IR-beta-ENDO observed in the old animals, a group of old CE female rats were castrated and compared to sham operated control CE rats. Thirty days after castration, levels of plasma, pituitary and hypothalamic IR-beta-ENDO were comparable in the intact and the chronically castrated old female rats. These data indicate that in old CE female rats, plasma and pituitary IR-beta-ENDO are significantly increased in comparison to young female rats on the day of estrus, and that these increased levels of IR-beta-ENDO observed in old female rats do not appear to be influenced by gonadal estrogen.     

Beta-endorphin concentrations in the hypothalamus, pituitary and plasma of streptozotocin-diabetic rats with and without insulin substitution therapy

The concentrations of beta-endorphin like immunoreactivity (beta-END) in the hypothalamus, pituitary and plasma were studied in rats of either sex, one month after induction of diabetes by single iv injection of streptozotocin. As controls, both normal and undernourished rats, weight-matched with diabetic rats, were used. Diabetic male and female rats had a marked depletion of beta-END stores in the hypothalamus and neurointermediate lobe (NIL) but not in the anterior pituitary. Depletion of beta-END was reversed to normal by insulin replacement therapy. Severe undernourishment was not as effective as diabetes to reduce beta-END stores in the hypothalamus and NIL. A significant reduction of beta-END was observed only in the NIL of undernourished female rats. Plasma beta-END and beta-lipotropin (beta-LPH) concentrations were not significantly altered in diabetic rats. These results indicate that the lack of insulin may affect beta-END synthesis in the hypothalamus and NIL.     

Effect of dopaminergic drugs on hypothalamic and pituitary immunoreactive beta-endorphin concentrations in the rat

Beta-endorphin concentrations have been evaluated in the hypothalamus, pituitary lobes and plasma after 1-and 3-week treatment with 2-Br-alpha-ergocriptine or lisuride, two potent dopaminergic drugs. Hypothalamic beta-endorphin concentrations were significantly decreased after the administration of the dopaminergic agents for 1 or 3 weeks. Similarly, beta-endorphin concentrations decreased in the neurointermediate lobe and plasma. After gel chromatography, it appeared that in the anterior pituitary, beta-lipotropin concentrations were unchanged or lightly increased concomitantly with a decrease of beta-endorphin. Our data indicate that, both in the hypothalamus and the neurointermediate pituitary lobe, beta-endorphin is under an inhibitory dopaminergic tone. The latter may also play a role in inhibiting beta-endorphin cleavage from beta-lipotropin in the anterior pituitary.     

Met-enkephalin-like immunoreactivity in neurointermediate pituitary is decreased by DA receptor stimulation

The effect of dopamine receptor stimulation by administration of the dopamine analogue bromocriptine on Met-enkephalin-LI was examined in rat hypothalamus, and neurointermediate and anterior lobes of pituitary. Bromocriptine treatment resulted in a dramatic decline of Met-enkephalin-LI in neurointermediate pituitary which was significant by 3 days of treatment. Maximal reduction of Met-enkephalin-LI ranged between 60-70% of pretreatment values and was maintained as long as bromocriptine was administered (4 weeks), with no evidence of desensitization or "escape." The effects of bromocriptine on neurointermediate lobe were of long duration and persisted for at least 4 days after discontinuation of treatment. No significant effects of bromocriptine were detected on Met-enkephalin-LI in hypothalamus or anterior pituitary. Whether these differences represent truly different regional regulation of Met-enkephalin-LI or whether the changes are more sensitively reflected in an area such as neurointermediate lobe that largely consists of nerve terminals, remains to be shown.     

Beta-endorphin in genetically hypoprolactinemic rat: IPL nude rat

Beta-endorphin has been reported to regulate not only stress- and suckling induced but also basal prolactin secretion. In the aim to better evaluate the endogenous beta-endorphin-prolactin interrelation, we measured beta-endorphin levels in a new rat strain, genetically hypoprolactinemic and characterized by a total lack of lactation : IPL nude rat.Beta-endorphin was measured using a specific anti-h-β endorphin in plasma and extracts of anterior and neurointermediate lobes of the pituitary, hypothalamus and brain. Pituitary extracts were also chromatographed on Sephadex G50 column. Results obtained showed that in IPL nude females on diestrus and males, the beta-endorphin contents of the neurointermediate lobe was significantly lower than in normal rats, while the values found in the other organs and plasma were similar. However, elution pattern of the anterior pituitary extract from male rats showed greater immunoactivity eluting as I¹²⁵ h-beta-endorphin than in normal rat; this was not the case for the female rat.These results are consistent with a differential regulation of beta-endorphin levels of anterior and neurointermediate lobe by catecholamines. Moreover they suggest that PRL secretion was more related to neurointermediate beta-endorphin.     

Aspects of the neuroendocrine control of ovulation and broodiness in the domestic hen

The neuroendocrine control of ovulation and broodiness in the domestic hen involves complex interactions between hypothalamic neuropeptides, neurotransmitters, and ovarian steroids which regulate the secretion of luteinizing hormone (LH) and prolactin. Nuclear progesterone receptor is localized in many neurons throughout the hypothalamus but is absent from LHRH neurons. Hence, the positive feedback action of progesterone on LH release is not mediated by a genomic mechanism within the LHRH neuron. Precursors of 5-hydroxytryptamine (5HT) and dopamine (DA) inhibit the preovulatory release of LH, while the turnover rates of these neurotransmitters in the anterior hypothalamus decrease when preovulatory levels of LH are at their highest. Further, a population of receptors for 5HT which occurs in the anterior hypothalamus in laying birds is absent in nonlaying, incubating hens. Taken together, these observations suggest that the preovulatory surge of LH is mediated by a transitory decrease in the inhibitory action of 5HT and possibly DA, on the secretion of LHRH. Neurons containing 5HT may play a role in the regulation of prolactin release and, more specifically, in the control of broodiness. Drugs which enhance the function of 5HT neurons stimulate prolactin release while increased prolactin secretion in incubating hens is associated with an increase in the turnover of 5HT in the anterior hypothalamus. No receptors for 5HT were demonstrable in the anterior pituitary gland, showing that the prolactin-releasing activity of 5HT must be mediated by a prolactin-releasing factor (PRF). A candidate for a physiological PRF is vasoactive intestinal polypeptide (VIP).(ABSTRACT TRUNCATED AT 250 WORDS)     

T3 reverses the changes in met-enkephalin and beta-endorphin contents in the anterior lobe, but not the neuro-intermediate lobe of the pituitary of rats rendered hypothyroid by PTU-treatment

The changes in met-enkephalin and beta-endorphin contents in the pituitary in PTU-induced hypothyroidism were studied in the rat. After 2 weeks of PTU-treatment, both IR-met-enkephalin and IR-beta-endorphin contents in the pituitary were significantly reduced. Gel filtration chromatography followed by radioimmunoassay showed that the immunoactivities in the peaks of precursors, met-enkephalin, beta-lipotropin and beta-endorphin were all lower in the pituitaries from the PTU-treated rats. In another experiment, some of the PTU-treated rats were injected daily with 500 micrograms T3/kg b.w. In the hypothyroid rats, IR-met-enkephalin and IR-beta-endorphin contents were decreased in both the anterior and neurointermediate lobes. Only the changes in the anterior lobe were reversed by T3 treatment. In conclusion, while the effects on the anterior lobe are probably due to a deficiency in thyroid hormones, the mechanism for the decrease of opioid peptide contents in the neurointermediate lobe is still unclear.     

Derivatization of progesterone to a neurally active steroid by pituitary neurointermediate lobe

The melanotrophs of the neurointermediate lobe and peptidergic terminals of the neural lobe are regulated by gamma-aminobutyric acid (GABA) via GABA-A receptors and therefore, may be important sites for the modulatory actions of neurally active steroids. These steroid compounds might be produced peripherally, synthesized de novo in the pituitary, or derivatized from circulating steroids, each pathway having different physiological implications. In the present study, we show that neurointermediate lobe tissue can derivatize progesterone to the neurally active steroid 3α-hydroxy-5α-pregnan-20-one. The neurointermediate lobe was found to be four times as active as anterior pituitary and mediobasal hypothalamus in conversion of progesterone to 3α-hydroxy-5α-pregnan-20-one; mediobasal hypothalamus was relatively more active in the production of the intermediate 5α-pregnan-3,20-dione. The identity of the compounds was confirmed by the method of serial isotopic dilution. We observed rates of synthesis in the neurointermediate lobe consistent with the production of physiologically relevant quantities of 3α-hydroxy-5α-pregnan-20-one from concentrations of progesterone which can occur naturally. In support of these findings, we demonstrate the presence of 3α-hydroxysteroid oxidoreductase in neurointermediate lobe by immunocytochemistry.     

Release of beta-endorphin-immunoreactivity from rat pituitary and hypothalamus in vitro: effects of isoproterenol, dopamine, corticotropin-releasing factor and arginine8-vasopressin

The release of beta-endorphin-immunoreactivity (beta E-IR) from rat pituitary anterior lobe (AL) quarters, neurointermediate lobes (NILs), and hypothalamic fragments was investigated in vitro. The beta-adrenoceptor agonist isoproterenol (ISO) and the hypothalamic neurohormone corticotropin-releasing factor (CRF) concentration-dependently stimulated the release of beta E-IR from superfused AL quarters and NILs, but not from incubated hypothalamic fragments. Dopamine (DA) inhibited the release of beta E-IR from NILs and hypothalamic tissue in a concentration-dependent manner, whereas it did not affect the release from AL quarters. Arginine8-vasopressin (AVP) stimulated the release of beta E-IR from AL quarters and hypothalamic fragments, but did not affect the release from NILs. The data indicate that the release of beta E-IR from cells in the pituitary lobes and in the hypothalamus is differentially regulated, but that common principles are involved. In particular, the results provide first direct evidence for an action of vasopressin as a stimulator of the release of POMC-derived peptides in the hypothalamus.