Evidence for serotonergic stimulation of pituitary beta-endorphin release: preferential release from the anterior lobe in vivo

Using gel filtration chromatography (Sephadex G-50) and radio-immunoassay for beta-endorphin (beta-END) and beta-lipotropin (beta-LPH) we investigated the site [anterior lobe (AL) vs. intermediate lobe (IL)] for serotonergic control of pituitary beta-END-like immunoreactivity (beta-END-LI) in the rat. Since the secretion of beta-LPH in vitro clearly distinguishes beta-END-LI release by the AL as compared to the IL, we interpreted changes in plasma levels of immunoreactivity resembling beta-LPH to reflect beta-END-LI release from the AL. Following the administration of L-tryptophan (200 mg/kg, 30 min, ip), a serotonin precursor, nearly all of the rise in total plasma beta-END-LI was due to the form of immunoreactivity resembling beta-LPH in molecular size. Similarly, 5-hydroxytryptophan (30 mg/kg, 30 min, ip), a serotonin precursor, and fluoxetine (10 mg/kg, 15 min, ip), a serotonin reuptake blocker, predominantly increased circulating levels of beta-LPH-sized immunoreactivity with little effect on beta-END-sized immunoreactivity. Quipazine (2.5 and 5.0 mg/kg, 30 min, ip), a serotonin receptor agonist, elevated plasma levels of both forms of beta-END-LI; however, the immunoreactive peak coeluting with beta-LPH was primarily affected, being increased 9.5-fold while that resembling beta-END was increased less than 1-fold. Immobilization stress (30 min) dramatically elevated plasma levels of both forms of immunoreactivity, however, a greater relative rise in beta-LPH than beta-END was observed. Intraventricular administration of 5,7-dihydroxytryptamine (75 micrograms, free base, 10 d), a serotonin neurotoxin, lowered plasma levels of both forms of immunoreactivity about equally in stressed animals. Further, dexamethasone, a synthetic glucocorticoid which selectively inhibits AL corticotroph secretion in vitro, attenuated the beta-LPH response to serotonergic activation in vivo. Together, these findings indicate that serotonergic drugs predominantly influence the release of beta-END-LI resembling beta-LPH and further suggest that serotonin neurons preferentially regulate the release of beta-END-LI from AL corticotrophs in vivo.     

In vivo and in vitro effects of angiotensin II on the release of beta-endorphin-like immunoreactivity

The effect of angiotensin II (A II) on the release of beta-endorphin-like immunoreactivity (beta-END-LI) in rats was studied in vivo and in vitro. Intravenous injection of 1 microgram/100 g body weight of A II resulted in significant increase in the plasma beta-END-LI level after 10 and 20 min. Intraventricular injection of 1 ng/100 g body weight of A II also resulted in significant increase in the plasma beta-END-LI level after 10 min. A II at concentrations of 10(-12) M-10(-10) caused dose-dependent stimulation of beta-END-LI release from dispersed cells of rat anterior pituitary. On gel chromatography, the beta-END-LI released by incubation of the cells with 10(-10) M A II separated into two components which eluted in the same positions as human beta-lipotropin and human beta-endorphin, respectively. The ratio of beta-LPH to beta-END in these fractions was 5:1 on a molar basis. A II did not stimulate beta-END-LI release in Ca++-free-medium. [Sar1, Ala8]-A II at concentrations of 10(-9) M - 10(-7) M did not stimulate beta-END-LI release from the cells. Addition of [Sar1, Ala8]-A II to the incubation medium inhibited A II-induced beta-END-LI release from the cells. These results indicate that A II acts, at least in part, directly on anterior pituitary cells to stimulate beta-END-LI release and that calcium ion is involved in the mechanism of this effect.     

Beta-endorphin in the human gallbladder

The presence of beta-endorphin-like immunoreactivity (beta-END-LI) in human gallbladder and its release were examined by means of radioimmunochemical measurements and immunohistochemical stainings. beta-END-LI was detected in the gallbladder (27.2 +/- 3.2 ng/g wet weight, mean +/- S.E.). The immunoreactivity in beta-END-LI extracted from the gallbladder was similar to that of synthetic beta-END, judging from the result of its inhibition curve parallel to that of the synthetic substance in the radioimmunoassay (RIA) system. On gel-filtration chromatography of a gallbladder extract, two components of beta-END-LI were found; one eluted on a position of beta-lipotropin (beta-LPH) and another on a position of synthetic beta-END. Specific beta-END-LI positive cells were detectable in metaplastic mucous glands. When human gallbladder mucosa was perfused with a solution of 10(-8) M or 10(-6) M cholecystokinin octapeptide (CCK-8), the release of beta-END-LI from mucosa into the perfusate increased 2-3 fold. These results indicate that beta-END-LI present in human gallbladder is released by the direct action of CCK-8 on the gallbladder mucosa and suggest that it may have a physiological or pathophysiological role.     

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.     

Role of glucocorticoids in the stress-induced suppression of testicular steroidogenesis in adult male rats.

We have examined the role of glucocorticoids in the stress-induced inhibition of testicular steroidogenesis. Immobilization (3 hr) reduced plasma testosterone (T) levels to 24% of control values but did not affect plasma LH levels. This reduction was partially reversed by in vivo injections of the antiglucocorticoid, RU486, prior to the stress session at a dose of 10 mg/kg BW, but not at 1.0 or 50 mg/kg BW. Stressed rats that were treated with 10 mg/kg BW RU486 had twofold higher plasma T levels than vehicle-treated stressed animals. Injections of RU486 did not affect plasma LH levels in control or stressed rats and did not affect T levels of unstressed rats. Stressed rats had eightfold higher plasma corticosterone levels than controls, and RU486 had no effect on control or stress levels of corticosterone. The possible role of glucocorticoids in mediating the effect of stress on testicular T production was investigated also in vitro by incubating testicular interstitial cells from unstressed rats for 3 hr with corticosterone (0, 0.01, 0.1, or 1.0 microM) or dexamethasone (0, 0.001, 0.01, or 0.1 microM), followed by an additional 2 hr with hCG (0, 25, 50, or 100 microIU). Both corticosterone and dexamethasone inhibited hCG-stimulated T production in a dose-dependent manner. Cells incubated with the highest concentration of either of the glucocorticoids showed significantly reduced responses to hCG stimulation. In the absence of hCG, in vitro T production was not affected by dexamethasone or 0.01 and 0.1 microM corticosterone. However, the highest dose of corticosterone (1.0 microM) produced a 63% elevation in basal T production. Coincubation of testicular interstitial cells with corticosterone (1.0 microM) or dexamethasone (0.1 microM) and RU486 (0.01, 0.1, and 1.0 microM) reversed the glucocorticoid-induced suppressions of T production in a dose-dependent manner. Our results suggest that during stress increases in plasma levels of glucocorticoids in male rats act via glucocorticoid receptors on testicular interstitial cells to suppress the testicular response to gonadotropins, and that the decline of testosterone production during immobilization stress is in part mediated by a direct action of glucocorticoids on the testis.     

Adrenalectomy increases beta-lipotropin secretion over beta-endorphin secretion from anterior pituitary corticotrophs

Previous studies have indicated that acute stress in vivo or ovine corticotropin releasing hormone (oCRH) in vitro, releases both beta-lipotropin (beta-LPH) and beta-endorphin (beta-END) from the anterior lobe, with beta-END predominating over beta-LPH by 2:1. However, repeated stress shifts this ratio to proportionately more beta-LPH released with re-stress or oCRH in vitro. Alternative hypotheses were that the glucocorticoids released during stress altered the processing of proopiomelanocortin (POMC) or that the increased biosynthetic drive resulted in an inability of the processing enzymes to keep pace with biosynthesis. To distinguish between these alternatives, adrenalectomy studies were performed. Following removal of glucocorticoid negative feedback there is greatly increased secretion of beta-END-IR from anterior lobe corticotrophs with a subsequent increase in biosynthetic drive. Under these conditions of increased biosynthetic drive in the absence of steroids, the corticotroph secretes primarily beta-LPH, suggesting that increased biosynthetic drive alters the posttranslational processing rate of POMC.     

Effect of atrial natriuretic peptide on the release of beta-endorphin from rat hypothalamo-neurohypophysial complex

The aim of this study was to determine whether atrial natriuretic peptide (ANP) alters beta-endorphin (beta-END) secretion from rat intermediate pituitary and whether this effect is a direct action on the intermediate pituitary or an indirect one mediated by hypothalamic factor(s). We studied the release of beta-END from rat neuro-intermediate lobes of the pituitary (NIL) and from the hypothalamo-neurohypophysial complex (HNC), which consists of the hypothalamus, pituitary stalk, intermediate and posterior lobes of the pituitary, by means of an in vitro perifusion system. NIL and HNC were prepared from male Wistar rats and individually perifused for 30 min with perifusion medium followed by 20 min perifusion with medium containing alpha-rat ANP and/or dopamine (DA). Samples of perifusion medium were collected every 5 min and subjected to RIA for beta-END. The basal release of beta-END from NIL was 180% of that from HNC (p less than 0.01), which provides further support for the presence of hypothalamic factors that inhibit beta-END release from the intermediate pituitary. The perifusion of HNC with ANP at 10(-7) and 10(-6) M increased the beta-END concentration by 25 and 50%, respectively (p less than 0.01). In contrast, ANP (10(-8) to 10(-6) M) had no effect on beta-END release from NIL. The inhibitory effect of DA (10(6) M) on beta-END release from NIL and HNC (51% and 50% of the basal release, respectively, p less than 0.01) was confirmed. However, this inhibitory effect was not reversed by ANP.(ABSTRACT TRUNCATED AT 250 WORDS)     

Inhibition of the ACTH adrenal response to stress by treatment with hydrocortisone, prednisolone and dexamethasone in the rat

16- and 4-week-old intact and adrenalectomized rats have been treated with different doses of the three glucocorticoids hydrocortisone, prednisolone and dexamethasone by gavage. The delayed feedback effect on plasma ACTH and corticosterone response to an ether stress have been assessed. Almost complete suppression of corticosterone response 20 min after an ether stress and an ACTH suppression to 20% of control values 5 min after an ether stress were observed with 25 micrograms of dexamethasone, 10 mg of prednisolone and 20 mg of hydrocortisone. Although the percent inhibition of corticosterone and ACTH response to stress was comparable, a striking dissociation of the ACTH and corticosterone release was observed in terms of absolute concentrations. A mean ACTH concentration of 462 ng/l after 25 micrograms of dexamethasone was measured together with a barely measurable corticosterone concentration of 3 micrograms%. Similarly, after 10 mg of prednisolone, the mean ACTH concentration was 404 ng/l, whilst the mean corticosterone concentration was 3 micrograms%. This dissociation demonstrates that the corticosterone concentration on its own does not necessarily reflect the ACTH release. At 4 weeks of age, the ACTH response to stress is more difficult to suppress than in adult animals. This is more obvious after adrenalectomy, where the excessive ACTH secretion was less inhibited by all glucocorticoids used. The time between the last steroid gavage and stress must be considered. In 4-week-old animals the ACTH response 16 h after 12.5 micrograms of dexamethasone was inhibited by 22%, whereas 4 h after the same dexamethasone dose the inhibition was 85%.(ABSTRACT TRUNCATED AT 250 WORDS)     

Agouti-related protein has an inhibitory paracrine role in the rat adrenal gland

alpha-Melanocyte-stimulating-hormone (alpha-MSH) is an agonist at the melanocortin 3 receptor (MC3-R) and melanocortin 4 receptor (MC4-R). alpha-MSH stimulates corticosterone release from rat adrenal glomerulosa cells in vitro. Agouti-related protein (AgRP) an endogenous antagonist at the MC3-R and MC4-R, is expressed in the adrenal gland. We investigated the expression of the MC3-R and MC4-R and the role of AgRP in the adrenal gland. MC3-R and MC4-R expression was detected in rat adrenal gland using RT-PCR. The effect of AgRP on alpha-MSH-induced corticosterone release was investigated using dispersed rat adrenal glomerulosa cells. AgRP administered alone did not affect corticosterone release, but co-administration of AgRP and alpha-MSH attenuated alpha-MSH-induced corticosterone release. To investigate glucocorticoid feedback, adrenal AgRP expression was compared in rats treated with dexamethasone to controls. AgRP mRNA was increased in rats treated with dexamethasone treatment compared to controls. Our findings demonstrate that adrenal AgRP mRNA is regulated by glucocorticoids. AgRP acting via the MC3-R or MC4-R may have an inhibitory paracrine role, blocking alpha-MSH-induced corticosterone secretion.     

Lipocorticotropic peptides in Cushing's disease: in vitro studies

The immunologic patterns of 3 human pituitary adenomas of Cushing's disease have been studied after gel exclusion chromatography (Sephadex G-50). The immunologic characteristics were examined with three radioimmunoassays specific for human corticotropin (ACTH), lipotropin (LPH) and beta-endorphin (beta-End). In cell tumor extracts, chromatographic peaks corresponding to beta-LPH, gamma-LPH, beta-End and ACTH were identified. The ACTH/beta-LP-beta-End ratio was 1 in the 3 cases. Additionally, in the 3 cases, a chromatographic peak, partially cross-reacting in the beta-End assay, was eluted after beta-End, thus suggesting the presence of a fragment of the molecule. In 1 case, a peak of large molecular weight material with N- and C-terminal beta-LPH and ACTH immunoreactivity was observed, which corresponded to the precursor material. The release and the effects of various stimuli were studied on dispersed tumor cells in primary culture. The tumor cells had a biphasic basal secretion rate with a rapid increase of ACTH/beta-LPH-beta-End in the culture medium during the first 2 h. Then the release, studied during 2 days, was slower. Chromatographic studies showed that the beta-LPH/beta-End ratio was 0.8 in the cells and 0.3 in the medium, due essentially to the release of beta-End and beta-End-like materials. The cells released ACTH and beta-LPH-beta-End in equimolar ratio after stimulation with arginine vasopressin (AVP). The maximum effect was obtained with 10(-6) M AVP (D50 = 1 10(-9) M). Dibutyryl cyclic AMP (2. 10(-3) M) induced maximal release of ACTH/beta-LPH-beta-End. This stimulation was suppressed by a 48-hour preincubation with dexamethasone (10(-8)-10(-6) M). There was no effect of TRH and LH-RH on cell release. Dopamine (10(-6) M) specifically blocked the release of ACTH/beta-LPH-beta-End in 1 case. These data showed (a) heterogeneity of chromatographic profiles from case to case; (b) the presence of material in the tumor, cell extracts and culture medium corresponding to fragment(s) of beta-End; (c) culture studies demonstrated that tumor cells remain responsive to AVP stimulation and dexamethasone suppression, and (d) the dopamine inhibition of ACTH and beta-End release needs further investigation.     

Glucocorticoids enhance the mitogenic action of insulin in serum-free cultures of chick embryo cells.

Addition of insulin to nonproliferating serum-free cultures of secondary chicken embryo (CE) cells caused a 30% to 50% increase in cell number. Addition of any one of several glucocorticoids (dexamethasone, cortisol, or corticosterone) to the cultures two days before insulin addition increased the mitogenic effect of insulin by about twofold at each insulin concentration tested. This glucocorticoid stimulation of cell proliferation was “permissive” because in the absence of insulin glucocorticoids caused little increase in cell number (usually less than 15%). Glucocorticoids were maximally active at low concentrations (e.g., 10^?10 M dexamethasone). Steroids without glucocorticoid activity were inactive over a wide range of concentrations. Glucocorticoids increased the mitogenic response to insulin largely by increasing the percentage of cells that insulin stimulated to synthesize DNA. The maximum mitogenic effect of insulin upon CE cells rapidly decreased after the cells were serially subcultured. After only nine population doublings (4 passages) in culture, the response to insulin was diminished by about 70%. The mitogenic effect of insulin plus dexamethasone declined similarly during serial subculture, and was always about twofold greater than the effect of insulin alone. The cells maintained their mitogenic responsiveness to serum as these responses decreased. In contrast to the growth promoting influence of glucocorticoids in the presence of insulin, glucocorticoids inhibited the mitogenic response of CE cells to serum. This result may resolve our above findings with reports that glucocorticoids inhibit the proliferation of CE cells.     

An investigation of N-terminal pro-opiocortin peptides in the rat pituitary

Extracts of neurointermediate lobe (NIL) and anterior lobe (AL) of the rat pituitary, and material released from perfused rat pars distalis (PD) and pars intermedia (PI) cells were gel chromatographed and monitored using three antisera, each recognizing different regions of the non-corticotropin (ACTH)-lipotropin (LPH) portion of pro-opiocortin (POC). Two peaks (termed N-POC I) which emerged close to the elution position of rat beta-LPH were detected. The first peak was reduced significantly in the PI. Two smaller N-POC fragments which eluted near beta-endorphin were detected only in extracts and secretions of intermediate lobe tissue. One peak cross-reacted in the gamma 3-melanotropin (MSH) assay (N-POC III) whereas the other peak possessed amino (N)-terminal N-POC immunoreactivity (N-POC II). The results demonstrated differences in the distribution and nature of N-POC peptides released and extracted from the PD and PI of the rat pituitary, and suggest that the enzymic processing of N-POC is different in the two pituitary lobes.     

Determination of the ovulatory mechanism of the grasscutter (Thryonomys swinderianus)

The objective of this study was to determine whether gonadotrophin-releasing hormone (GnRH), oxytocin (OT) and vasoactive intestinal polypeptide (VIP) modulate beta-endorphin-like immunoreactivity (beta-END-LI) secretion by dispersed anterior pituitary cells of pigs and in vivo priming with steroid hormones, estradiol benzoate (EB) and progesterone (P(4)), influences the cell reactivity to peptide hormones tested. Additionally, the aim of this research was to examine the involvement of cyclic nucleotides (cAMP and cGMP) in transduction of signals induced by GnRH, OT and VIP in porcine pituitary cells. Pituitaries were collected from ovariectomized (OVX) gilts that were divided into four experimental groups. Animals of group 1 (OVX) received 1ml corn oil (placebo)/100 kg body weight (b.w.), group 2 (OVX+EB I) and group 3 (OVX+EB II) were treated with EB at the dose 2.5mg/100 kg b.w., 30-36 and 60-66 h before slaughter, respectively. Animals of group 4 (OVX+P(4)) were injected with P(4) at the dose 120 mg/100 kg b.w. for 5 subsequent days before slaughter. Anterior pituitaries were dispersed with trypsin and then pituitary cells were cultured (10(6) per well) in McCoy's 5A medium containing horse serum (10%) and fetal calf serum (2.5%) for 3 days at 37 degrees C under an atmosphere of 95% air and 5% CO(2). Subsequently, plates were rinsed with fresh McCoy's 5A medium and pituitary cells were treated with one of the following agents: GnRH (100 ng/ml), OT (10(-6)M) or VIP (10(-7)M) and incubated for 3.5h at 37 degrees C.GnRH did not affect beta-END-LI secretion by pituitary cells of OVX (group 1) and OVX+P(4) (group 4) gilts. When the pituitary cells were incubated in the presence of OT and VIP, significant increases were observed. After priming of OVX gilts with EB, 30-36 h before slaughter (group 2), we noted a significant increase in beta-END-LI release from pituitary cells only in the presence of VIP. Pituitary cells from gilts treated with EB, 60-66 h before slaughter (group 3), produced markedly elevated amounts of beta-END-LI after GnRH, OT or VIP addition.GnRH markedly stimulated cGMP release from cultured pituitary cells in all experimental groups and significantly increased cAMP production by the cells from OVX, OVX+EB II and OVX+P(4) animals. The addition of OT enhanced both cAMP and cGMP output in all experimental groups of pigs. VIP stimulated cAMP release from pituitary cells derived from OVX, OVX+EB I and OVX+EB II animals. cGMP output was markedly elevated under the influence of VIP from pituitary cells of OVX, OVX+EB II and OVX+P(4) gilts.In conclusion, our results suggest that GnRH, OT and VIP can modulate beta-endorphin release from porcine pituitary cells and imply the involvement of cAMP and cGMP in transduction of signals induced by studied peptides in the cells.     

The physiological role of beta-endorphin in porcine ovarian follicles

Beta-endorphin-like immunoreactivity (beta-END-LI) was measured by radioimmunoassay in porcine ovarian follicular fluid (FF) from small, medium and large follicles throughout the oestrous cycle. The concentration of beta-END-LI in FF from small follicles collected on days 1-5 of the cycle was at least tenfold higher than in the fluid from any other follicles independently from their size and the period of the cycle. The level of beta-END-LI in small follicles on days 6-10 was drastically decreased. Subsequently, on days 11-16 its concentration was enhanced and reduced again in pre-ovulatory period of the cycle. Concentrations of beta-END-LI in FF from medium follicles were relatively equal throughout the cycle (days 6-21). No significant differences in beta-END-LI levels were found between small, medium and large follicles from days 17-21. However, beta-END-LI concentrations in medium follicles on days 11-13 and 14-16 were statistically lower than those in small follicles. Moreover, the effects of FSH, prolactin (PRL), progesterone (P4), testosterone (T) and 17 beta-oestradiol (E2) on beta-END-LI release by granulosa cells (GCs) from large follicles and, on the other hand, the effects of the opioid agonist FK 33-824 alone or in combination with FSH, PRL or naloxone (NAL) on follicular steroidogenesis were studied. FSH drastically increased beta-END-LI output in a dose-dependent fashion. This stimulatory effect of the gonadotrophin was inhibited by the highest dose of P4 (10(-5) M). The effect of PRL and the steroids added to the cultures on beta-END-LI release was negligible. FSH- or PRL-induced P4 secretion by GCs was essentially abolished by both FK 33-824 and NAL. However, androstenedione (A4) and testosterone output by the cells was greatly potentiated by FK 33-824. In the presence of NAL, FSH or PRL, A4 release stimulated by FK 33-824 was suppressed to the basal level. Secretion of E2 was completely free from the influence of FK 33-824 or NAL; only oestrone (E1) output was modulated by them in cultures where FSH or PRL was present. In conclusion, FSH appears to be the key regulator of beta-END-LI secretion by porcine granulosa cells. Moreover, steroidogenesis in pig granulosa cells is modulated by opioid peptides acting both alone and by way of interaction with FSH or PRL.     

Dexamethasone stimulates thyrotropin-releasing hormone production in a C cell line

The hypothalamic peptide hormone TRH is also found in other tissues, including the thyroid. While TRH may be regulated by T3 in the hypothalamus, other regulators of TRH have not been identified and the regulation of TRH in nonhypothalamic tissues is unknown. We recently demonstrated the biosynthesis of TRH in the CA77 neoplastic thyroidal C cell line. We studied the regulation of TRH by dexamethasone in this cell line because glucocorticoids have been postulated to inhibit TSH secretion by decreasing TRH in the hypothalamus. Furthermore, TRH in the thyroid inhibits thyroid hormone release. Thus by regulating thyroidal TRH, glucocorticoids could also directly affect thyroid hormone secretion. Treatment of CA77 cells for 4 days with dexamethasone produced dose-dependent increases in both TRH mRNA and cellular and secreted TRH. Increases in TRH mRNA and peptide levels could be seen with 10(-9) M dexamethasone. A 4.8-fold increase in TRH mRNA and a 4-fold increase in secreted peptide were seen with 10(-7) M dexamethasone. Dexamethasone treatment did not increase beta-actin mRNA levels or cell growth. These results suggest that glucocorticoids may be physiological regulators of TRH in normal C cells. In addition to their inhibitory effects on TSH, glucocorticoids may decrease thyroid hormone levels by increasing thyroidal TRH. Since the glucocorticoid effects on C cell TRH are the converse of what is expected for hypothalamic TRH, glucocorticoid effects in these two tissues may be mediated by different regulators.     

Serotoninergic stimulation of aldosterone secretion in vivo: role of the hypothalamo-pituitary adrenal axis.

The control of aldosterone secretion in vivo by serotonin was studied in conscious rats. Serial blood samples were taken from indwelling arterial cannulae before and after i.p. administration of 1 ml (4 g/l) 5-hydroxytryptophan (5-HTP), the precursor of serotonin (5-HT), or saline, and analysed for 5-HTP, serotonin, 5-hydroxyindoleacetic acid, plasma renin activity (PRA), corticosterone, aldosterone, sodium and potassium concentration. The relative contribution of the hypothalamo-pituitary adrenal axis was investigated in animals pretreated with the synthetic glucocorticoid dexamethasone. 5-HTP caused a significant increase in all parameters within 45 min except for plasma sodium and potassium. Saline administration showed no significant effect. Dexamethasone pretreatment significantly impaired the corticosterone and aldosterone response to 5-HTP, although the aldosterone response was merely attenuated. No other parameter was affected by dexamethasone pretreatment. The results show that administration of 5-HTP, which increases serum serotonin levels, stimulates PRA, corticosterone and aldosterone secretion. Dexamethasone pretreatment inhibits the aldosterone response, though not completely, suggesting that the stimulatory action of 5-HTP involves the release of ACTH, which stimulates corticosterone and aldosterone secretion by the adrenal cortex. The failure of dexamethasone to block the aldosterone response completely, suggests the involvement of other mechanisms such as the renin-angiotensin system or a direct action of serotonin on the adrenal zona glomerulosa.     

Repeated stress alters the ability of nicotine to activate the hypothalamic-pituitary-adrenal axis

Acute nicotine administration has been shown to activate the hypothalamic-pituitary-adrenal (HPA) axis and stimulate secretion of adrenocorticotrophic hormone (ACTH), corticosterone/cortisol and beta-endorphin (beta-END) in both rodents and humans, raising the possibility that activation of the HPA axis by nicotine may mediate some of the effects of nicotine. Since stress can increase the risk of drug use and abuse, we hypothesized that repeated stress would increase the ability of nicotine to stimulate the secretion of HPA hormones. To test our hypothesis, mice were exposed to repeated stress (swimming in 15 degrees C water for 3 min/day for 5 days) and killed 15 min after injection of saline or nicotine (0.1 mg/kg, s.c.). Repeated exposure to stress increased the ability of nicotine to stimulate plasma ACTH (p<0.05) and beta-END (p<0.05), but not corticosterone secretion. In contrast, repeated exposure to stress increased the post-saline injection levels of corticosterone (p<0.05), but not ACTH and beta-END. The present results suggest that chronic stress leads to an enhanced sensitivity of some components of the HPA axis to a subsequent nicotine challenge.     

Cannabinoids and the hippocampal glucocorticoid receptor: recent findings and possible significance.

It has long been recognized that cannabinoids, including delta 9-tetrahydrocannabinol (THC), the major psychoactive substance of marijuana, bear structural similarities to steroid hormones. The hippocampal region of the brain is particularly rich in glucocorticoid receptors (GCRs), and the region also displays dense autoradiographic binding by synthetic cannabinoids. The present report summarizes studies conducted on cannabinoid interaction with hippocampal GCRs, both in vivo and in vitro. Young rats treated for 8 months with THC displayed anatomic and cellular changes in the hippocampus similar to those seen in older, untreated rats, or in rats treated with high levels of glucocorticoids. Binding of [3H]dexamethasone in cytosol prepared from adrenalectomized rat hippocampus was reduced in the presence of 100-fold molar excess of unlabeled THC. However, further increases of THC concentration, to 20,000-fold excess, could displace no more than 50% of radiolabeled dexamethasone. Scatchard analysis of the binding produced a parallel competition plot for THC, versus the plot for dexamethasone, which may reflect a noncompetitive or allosteric interaction with hippocampal GCR. Cannabidiol, a nonpsychoactive cannabinoid, displayed less competition than THC in all parameters. Treatment of adrenalectomized rats for 14 days with 10 mg/kg THC produced down-regulation of hippocampal GCR binding in a manner also reported following high glucocorticoid administration. Although an initial oral administration of THC to intact rats stimulated release of plasma corticosterone, daily repetition of treatment for 7 and 14 days failed to elicit further corticosterone secretion. Taken together, the results indicate that THC may possess some agonist-like properties of glucocorticoids at the hippocampal GCR site.(ABSTRACT TRUNCATED AT 250 WORDS)