The Met-enkephalin analog D-Ala2-Met-enkephalinamide decreases the adrenocortical response to ACTH in dispersed rat adrenal cells

The effects of the Met-enkephalin analog D-Ala²-Met-enkephalinamide (DALA) on basal and ACTH-stimulated corticosterone secretion from dispersed adrenal cells were investigated. Low doses (10^?10 and 10^?12 M) of DALA resulted in no apparent alteration in the response to ACTH (8×10^?9, 3.2×10^?8 or 1.6×10^?7 M). High doses of DALA (10^?8 and 10^?6 M) produced a decline in the steroidogenic response to ACTH. The opiate receptor antagonist naloxone (10^?4–10^?10 M) did not influence the basal production of corticosterone or the stimulating action exerted by ACTH. However, the presence of naloxone reversed the blocking action on corticosterone production that was exerted by DALA. These findings indicate that enkephalins may decrease adrenocortical responsiveness to ACTH.     

Effect of beta-endorphin on the steroid production of isolated zona glomerulosa and zona fasciculata cells

Small doses of β-endorphin (10^?11?10^?5M) decrease corticosterone production of zona fasciculata cells but fail to influence steroid production of zona glomerulosa cells. 10^?4M β-endorphin increases corticosterone production of both zones. The stimulating effect of ACTH on zona fasciculata corticosterone- and zona glomerulosa aldosterone production was decreased by β-endorphin (10^?9?10^?7M). Conclusion: β-endorphin might modulate both basal and ACTH stimulated corticosterone secretion.     

Relationship between endogenous cyclic AMP production and steroid hormone secretion in chick adrenal cells

Dispersed chick adrenal cells were incubated with either ACTH, cholera toxin or forskolin. All three agents stimulated cyclic AMP accumulation and secretion of corticosterone and aldosterone by the dispersed cells. The dose-response to ACTH was similar for cyclic AMP and corticosterone but aldosterone secretion appeared to be more sensitive to ACTH stimulation. Concentrations higher than 10(-8) M of ACTH caused suppression of corticosterone output but not of cyclic AMP accumulation or aldosterone secretion. A significant cyclic AMP accumulation occurred within 30 min of exposure to ACTH whereas significant increases in steroid secretion were observed only after 30 min. An early increase (within 30 min) in cyclic AMP accumulation with both cholera toxin and forskolin was not accompanied by any significant stimulation of steroid secretion, which occurred only after 120 min. The results with the avian adrenal cells are consistent with the thesis that steroid production in the adrenocortical cells is stimulated by cyclic AMP-dependent pathways, whereas steroid release may be modulated by others.     

Evidence for 6-keto-PGF1α in adrenal cortex of the rat and effects of 6-keto-PGF1α and PGI2 on adrenal cAMP levels and steroidogenesis

Both intact cortical tissue and isolated cortical cells from the adrenal gland of the rat were analyzed for 6-keto-PGF_1α, the hydrolysis metabolite of PGI₂, using high-performance liquid chromatography and gas chromatography-mass spectrometry. 6-Keto-PGF_1α was present in both incubations of intact tissue and isolated cells of the adrenal cortex, at higher concentrations than either PGF_2α or PGE₂. Thus, the cortex does not depend upon vascular components for the synthesis of the PGI₂ metabolite. Studies $\text{in vitro}$, using isolated cortical cells exposed to 6-keto-PGF_1α (10^?6-10^?4M), show that this PG does not alter cAMP levels or steroidogenesis. Cells exposed to PGI₂ (10^?6-10^?4M), however, show a concentration-dependent increase of up to 4-fold in the levels of cAMP without altering corticosterone production. ACTH (5–200 μU/ml) increased cAMP levels up to 14-fold, and corticosterone levels up to 6-fold, in isolated cells. ACTH plus PGI₂ produced an additive increase in levels of cAMP, however, the steroidogenic response was equal to that elicited by ACTH alone. Adrenal glands of the rat perfused $\text{in situ}$ with PGI₂ showed a small decrease in corticosterone production, whereas ACTH greatly stimulated steroid release. Thus, while 6-keto-PGF_1α is present in the rat adrenal cortex, its precursor, PGI₂, is not a steroidogenic agent in this tissue although it does stimulate the accumulation of cAMP.     

Daily rhythms of pituitary-ovarian function in the immature hamster are independent of adrenal and pineal influence

In female hamsters, the daily rhythm of LH appeared on the 15th or 16th day after birth with a peak occurring at about 16:00 h (14L:10D, lights on 06:00 h). Progesterone concentrations increased and became rhythmic a few days later. In serum samples collected at 14, 16, 18, 20, 25, 30, 40 and 60-62 days of age between 13:00 and 23:00 h, significant rhythms of serum cortisol and corticosterone concentrations were not detected before 25 days of age; furthermore, the phase of the rhythms did not stabilize to the adult pattern until about 40 days of age. As in the adult, significant rhythms were present in both sexes and the levels of cortisol were greater than those of corticosterone. Injection of pig ACTH (50 i.u./kg body wt, i.p.) significantly increased serum cortisol by 10 days of age, but corticosterone did not respond until 25 days of age. Thus, for cortisol at least, the appearance of 24-h rhythms in the serum is probably not dependent on the ability of the adrenal to respond to ACTH. Ovariectomy had no effect on the late afternoon surge of serum cortisol; similarly, adrenalectomy of immature females did not abolish the surge of LH. Ovariectomy did not alter the daily rhythm of pineal melatonin content and pinealectomy had no effect on the daily afternoon surge of LH. These results demonstrate functional independence of circadian rhythms in the pituitary-gonadal axis and the pituitary-adrenal axis of the immature hamster and also independence of daily rhythms of pineal melatonin and pituitary release of LH.     

Effects of some steroid hormones on head-to-head association in bovine spermatozoa

In the presence of 2 × 10^?6 M Ca²⁺ in Tris-buffered medium 0.5 × 10^?6 M, oestradiol-17β or corticosterone significantly increased the head-to-head association of washed bull spermatozoa; in the same concentration, testosterone and 5α-dihydrotestosterone had no significant effects, whereas progesterone significantly dissociated the associated spermatozoa. At 8 × 10^?6 M Ca²⁺ in the same medium, all five hormones increased the association to about the same level. In Tyrode solution with a Ca²⁺ concentration of 1.4 × 10^?3 M, oestradiol-17β and corticosterone acted as above, whereas progesterone and the two testosterones effected dissociation. In Tyrode solution each of the dissociating hormones was combined with oestradiol-17β. In each case a sum of the effects of the two hormones was obtained without any stimulation or inhibition. All five hormones still produced significant effects at 5 × 10^?7 M in Tyrode solution. A corresponding value for ATP was found at 1 × 10^?5 M.     

Effects of evodiamine and rutaecarpine on the secretion of corticosterone by Zona fasciculata‐reticularis cells in male rats

Evodiamine (EVO) and rutaecarpine (RUT) are two bioactive alkaloid isolated from Chinese herb named Wu–Chu–Yu. Previous studies have shown that EVO and RUT possess thermoregulation, vascular regulation, anti‐allergic, anti‐nociceptive and anti‐inflammatory activities. The mechanisms of EVO and RUT effect on steroidogenesis are not clear. The goal of this study was to characterize the mechanism by which EVO and RUT affect corticosterone production in rat zona fasciculata‐reticularis (ZFR) cells. ZFR cells were isolated from adrenal glands of male rats and incubated with adrenalcorticotropin (ACTH, 10^?9 M), forskolin (an adenylyl cyclase activator, 10^?5 M), 8‐bromo‐adenosine 3′:5′‐cyclic monophosphate (8‐Br‐cAMP, a permeable cAMP analog, 10^?4 M), or steroidogenic precursors including 25‐hydroxycholesterol, pregnenolone, progesterone, and deoxycorticosterone, 10^?5 M each, in the presence or absence of EVO and RUT respectively (0–10^?3 M) at 37°C for 1 h. The concentrations of corticosterone, pregnenolone and progesterone in the media were measured by radioimmunoassay. After administration of ZFR cells with EVO or RUT (10^?4 M) for 60 and 120 min, Western blot analysis was employed to explore the influence of EVO and RUT on the expression of cytochrome P450 side chain cleavage enzyme (P450scc) and steroidogenic acute regulatory protein (StAR). EVO and RUT reduced both basal and ACTH‐, forskolin‐, as well as 8‐Br‐cAMP‐stimulated corticosterone production in rat ZFR cells. The enhanced corticosterone production caused by the administration of four steroidogenic precursors was decreased following EVO or RUT challenge. These results suggest that EVO and RUT inhibit corticosterone production in rat ZFR cells via a mechanism involving: (1) a decreased activity of cAMP‐related pathways; (2) a decreased activity of the steroidogenic enzymes, that is, 3β‐hydroxysteroid dehydrogenase (3β‐HSD) and 11β‐hydroxylase (P450c11), during steroidogenesis; and (3) an inhibition of StAR protein expression. J. Cell. Biochem. 108: 469–475, 2009. © 2009 Wiley‐Liss, Inc.     

Role of prostacyclin on steroidogenesis by frog interrenal gland

The role of prostacyclin (PGI₂) on amphibian adrenal steroidogenesis was studied in perifused interrenal fragments from adult male frogs. Exogenous PGI₂ (3×10⁻⁸ M to 3×10⁻⁵ M) and, in a lesser extent, 6-keto-PGF_1α increased both corticosterone and aldosterone production in a dose-related manner. Short pulses (20 min) of 0.88 μM PGI₂ administered at 90 min intervals within the same experiment did not induce any desensitization phenomenon. A prolonged administration (6 h) of PGI₂ gave rise to an important increase in steroid production followed by a decline of corticosteroidogenesis. Indomethacin (IDM, 5 μM) induced a marked reduction of the spontaneous secretion of corticosteroid which confirmed the involvement of endogenous PGs in the process of corticosteroid biosynthesis. The IDM-induced blockade of corticosterone and aldosterone secretion was totally reversed by administration of exogenous PGI₂ in our model. Angiotensin II (AII) induced a massive release of 6-keto-PGF_1α, the stable metabolite of PGI₂. The increase of 6-keto-PGF_1α preceded the stimulation of corticosterone and aldosterone secretions. In contrast, the administration of ACTH did not modify the release of 6-keto-PGF_1α. These results indicate that PGI₂ might be an important mediator of adrenal steroidogenesis in frog. They confirm that the corticosteroidogenic actions of ACTH and AII are mediated by different mechanisms.     

Effects of (D-ala2, met5)-enkephalinamide and naloxone on ACTH and corticosterone secretion

An intravenous administration of (D-ala2, met5)-enkephalinamide (DALA) caused a significant elevation of plasma ACTH and corticosterone at 10 to 20 min after injection in unanesthetized freely moving rats. An intraperitoneal administration of cyproheptadine tended to reduce plasma ACTH and corticosterone levels at 60 min after injection, but it did not attenuate the DALA-induced ACTH and corticosterone elevation. A large dose of naloxone (1-10 mg/kg body weight) caused a significant elevation in plasma corticosterone, but naloxone at 10 mg/kg body weight reduced the basal ACTH level and DALA-induced ACTH elevation. When both DALA and naloxone were injected, the steroidogenic effect was attenuated. Neither DALA nor naloxone affected the basal ACTH release and CRF-induced ACTH stimulation in rat anterior pituitary cell cultures. These results suggest that DALA acts at the extra-hypophyseal level to stimulate ACTH and corticosterone and that the naloxone stimulatory effect on steroidogenesis acts on the adrenal gland or is mediated by stimulating corticosterone stimulating factors other than ACTH.     

Effect of alpha-MSH on the corticosteroid production of isolated zona glomerulosa and zona fasciculata cells

α-MSH (10^?9 ? 6×10^?7M) potentiates the effect of ACTH (10^?11 ? 5×10^?9M) on adrenocortical steroidogenesis decreassng ED₅₀ of ACTH from 220 to 183 pg/ml on zona fasciculata corticosterone-, and from 739 to 437 pg/ml on zona glomerulosa aldosterone production. α-MSH alone increases aldosterone production of zona glomerulosa cells in doses (10^?9 ? 6×10^?7M) that do not stimulate zona fasciculata corticosterone production. The response of zona glomerulosa aldosterone production to α-MSH can be characterized by a bi-phase dose-response curve.     

Anticonvulsants and trifluoperazine inhibit the evoked release of GABA from cerebral cortex of rat at different sites

The action of anticonvulsant drugs, phenytoin, diazepam, clonazepam and phenobarbitone, was tested on the release of [¹⁴C]-GABA from tissue slices of rat cerebral cortex. All drugs caused a significant dose-dependent depression of the 33mM-K⁺-evoked release of [¹⁴C]-GABA but had little effect on the resting release of [¹⁴C]-GABA, except at high concentrations. The IC₅₀ values for inhibition of K⁺-evoked release of [¹⁴C]-GABA were 4.7 × 10^?5, 7 × 10^?5, 28 × 10^?5 and 7.9 × 10^?4M for diazepam, clonazepam, phenytoin and phenobarbitone respectively. Trifluoperazine also caused a similar and complete inhibition of [¹⁴C]-GABA release with an IC₅₀ of 1 × 10^?5M. The effect of diazepam and trifluoperazine were additive. The inhibition by trifluoperazine could be overcome by addition of exogenous calmodulin, whereas that of diazepam, phenytoin or phenobarbitone was not overcome. It is proposed that the anticonvulsants tested inhibit calcium-dependent transmitter release at a site distal to the formation of a calcium-calmodulin complex, which is presumably activated by this complex. Trifluoperazine, on the other hand, acts by reducing the availability of calmodulin.     

Muscarinic receptors in pineal

The presence of muscarinic receptors in sheep and rat pineals was detected by binding of [³H]quinuclidinyl benzilate ([³H]QNB), a potent and specific muscarinic antagonist. [³H]QNB binding to sheep pineal membrane resuspensions was saturable and reversible, with a rate constant for association at 37°C of 6×10⁸M^?1min^?1 and a rate constant for dissociation of 1×10^?2min^?1. Kinetic and saturation experiments yielded an equilibrium dissociation constant of 13–18 pM and a concentration of binding sites equivalent to 1.1 pmol/g of original wet weight. This is only about 5% of the level of β-adrenergic receptors. Competition by a variety of cholinergic drugs confirmed the muscarinic nature of the binding sites. Experiments in rats failed to detect a significant decrease in pineal [³H]QNB binding following bilateral superior cervical ganglionectomy, suggesting that the binding sites are not localized exclusively on sympathetic terminals.     

Role of pineal gland in kidney-adrenal homeostasis

The effects of pineal gland on kidney-adrenal axis have been studied in male rats. Rats were pinealectomized and exposed to a photoperiod of 12 h light: 12 h dark. Plasma renin activity (PRA), corticosterone and corticotropin (ACTH) levels were measured at 10, 20 and 35 days postpinealectomy. Pinealectomy increased corticosterone and ACTH levels and decreased PRA in all age groups. A significant negative correlation was found between corticosterone and PRA, which suggest that changes in PRA were due to changes in circulating corticosterone, via feedback mechanism on renin secretion. On the other hand, melatonin administration prevents these effects of pinealectomy. It is suggested that the lack of this pineal indol is responsible for the pinealectomy-induced alterations in male rats.     

Effects of des-tyr1 -γ-endorphin on dopamine release from various rat brain regions in vitro

In rat striatum, nucleus accumbens and frontal cortex slices 6×10^?8M of the potential neuroleptic peptide des-Tyr-γ-endorphin (DTγE) did not affect basal dopamine release but depressed K⁺-evoked release. Haloperidol at 5×10^?6M increased both basal and K⁺-induced release in striatal and nucleus accumbens slices whereas it increased only basal dopamine release in frontal cortex slices. At 5×10^?8M haloperidol, however, had no effect. It is concluded that DTγE may decrease dopaminergic activity in the brain by depressing depolarization-induced dopamine release, possibly via a presynaptic mechanism.     

Selective beta-adrenoceptor antagonism of induced formation of 14C-N-acetylserotonin in rat pineal glands in organ culture.

Stimulation of β-adrenoceptors in cultured rat pineal glands increased the formation of (¹⁴C)-N-acetylserotonin (NAcS) from (¹⁴C)-serotonin. The non-selective β-adrenoceptor antagonist dl-propranolol and the selective β₁-adrenoceptor antagonist practolol both decreased the response to the directly acting β-agonist terbutaline 2×10^?4 M, when measured as the amount of (¹⁴C)-NAcS released into culture medium during a 24 h period. A 1,000 times higher concentration was required in the medium using practolol than propranolol to decrease (¹⁴C)-NAcS formation 50% as compared to the level reached using terbutaline 2×10^?4 M by itself.Two different selective β₂-adrenoceptor antagonists were tried: butoxamine (0.05 mM–0.10 mM) and H 35/25 (0.01 mM–0.25 mM). Butoxamine was without effect in the concentrations tested and H 35/25 either did not affect or in the lowest concentration potentiated terbutaline induced (¹⁴C)-NAcS formation. The results indicate that the rat pineal gland β-adrenoceptors studied in organ culture respond similar to the β₁-adrenoceptor subgroup.     

INFLUENCES OF COLCHICINE, VINBLASTINE AND CYTOCHALASIN ON THE RELEASE OF 5-HYDROXYTRYPTAMINE FROM RAT BRAIN SYNAPTOSOMES

Rat brain synaptosomes preincubated with [³H]5-HT. were further incubated and the release of [³H]5-HT from the preparation was studied. The spontaneous release consisted of an initial rapid phase followed by slower release. Incubation with 60 mM-KCl increased the release while 60 mw-NaCl did not affect it. The effect of KG was abolished when NaCl was omitted from the medium. The potassium-induced release was Ca²⁺ -dependent while that induced by tyramine (10^?5-10^?4M) and the spontaneous release did not depend on Ca²⁺. Vinblastine (10^?5–2.5 X 10^?4 M) caused an increase in the spontaneous release and an decrease in the potassium-induced release, while it completely inhibited the release by tyramine at 2.5 X 10^?4 M. Colchicine (5 X 10^?5–10^?3M) and cytochalasin D (10^?5, 10^?4 M) failed to produce any change in the release. Cytochalasin B (10^?5, 10^?4M) increased the spontaneous release and decreased the potassium-induced release but it did not affect the release by tyramine. Colchicine (10^?3 M). vinblastine (10^?4 M) and cytochalasin B (10^?4 M) did not affect significantly Na⁺.K⁺-. Mg²- and Ca²⁺ -ATPase activities. These results suggest that none of microtubules. microfilaments and contractile protein participates in the mechanism of [³H]5-HT release from synaptosomes, in vitro.     

The influence of vasoactive intestinal polypeptide and cholecystokinin of prolactin release in rat and human monolayer cultures

We have evaluated the effects of the gut-brain peptides, VIP and CCK, on pituitary PRL secretion in monolayer cultures of normal and tumor bearing rodent and human pituitary tissue. In cultures prepared with normal human pituitary tissue obtained from three patients with metastatic breast cancer, VIP at 10^?7M and 10^?9M (but not 10^?11M) significantly (p<.05) increased PRL secretion in the wells by 6 hrs. Similar concentrations of VIP also significantly (p<.05) promoted PRL release from pituitary tissue obtained by transphenoidal hypophysectomy from one of two prolactinoma patients. Dopamine (10^?5M) inhibition of PRL secretion was not affected by 10^?11 to 10^?7M VIP. In contrast to these findings VIP did not significantly influence 6 hr rat PRL release in monolayer cultures of normal or transformed cells (GH₃) with or without the addition of bacitracin (10^?5M).CCK₃₃ significantly (p<.01) increased rat PRL release in human pituitary monolayer cultures at 10^?5M. The more biologically potent CCK₈ significantly (p<.02) increased rat PRL release at a 10-fold lower concentration, 10^?6M. In contrast, CCK₈ 10^?8 to 10^?6M, did not significantly influence PRL release from normal human pituitary cultures or from tumor bearing human (prolactinoma) and rat (GH₃) cultures. We conclude that 1) the gut-brain peptides, VIP and CCK, can directly stimulate pituitary PRL release and 2) VIP may be a physiologic prolactin releasing factor in man.     

Modulation of in vitro release of beta-endorphin from the separate lobes of the rat pituitary.

The rate of in vitro release of β-endorphin immunoreactivity from the anterior lobe of rat pituitary increased in response to hypothalamic extract and lys-vasopressin. Lys-vasopressin, at a low concentration, initiated a pronounced (5–6 fold) dose-dependent, parallel increase in the release of β-endorphin and ACTH from the anterior lobe. Corticosterone (5·10^?7 M) did not influence basal but could suppress such stimulated release. These stimulants did not, however, change the rate of release from the intermediate/posterior lobe.Chromatography of incubation media showed that β-endorphin and β-lipotropin were released in parallel from the anterior lobe but only β-endorphin from intermediate/posterior lobe tissue.These findings suggest that the β-endorphin pools in anterior and intermediate lobes differ both in their mechanism of release and in the regulation of this process.     

Inhibition of protein synthesis on homologous and heterologous desensitization in the rat adipocyte

Desensitization of lipolysis was induced in isolated rat adipocytes by incubation with isoproterenol 10^?5M or ACTH 250 mU/ml for two and three hours, respectively. Those cells desensitized with isoproterenol were restimulated with either isoproterenol 10^?7M or ACTH 6 mU/ml and those cells desensitized with ACTH were restimulated with isoproterenol 10^?7M. Lipolysis was quantitated by the release of cyclic AMP and glycerol. No effect on either homologous or heterologous desensitization was observed when either cycloheximide 2 μg/ml or puromycin 10^?4M was included in the incubation media during the induction of desensitization. These findings support the conclusion that protein synthesis plays no role in the desensitization of lipolysis in the isolated rat adipocyte.     

Cholecystokinin octapeptide releases growth hormone from the pituitary in vitro

Cholecystokinin-octapeptide (CCK-8)(10^?6 to 10^?8M) produced a marked increase in growth hormone (GH) release from incubated rat anterior pituitary quarters and from cultured GH₃ pituitary tumor cells. Although several CCK-8 analogues also caused GH release, bombesin, secretin and pancreatic polypeptide had no effect on GH secretion $\text{in vitro}$. In the GH₃ cell line, CCK-8 (10^?7M) reversed the inhibitory effect of somatostatin (10^?5M) on GH release. As CCK immunoreactivity has been demonstrated to be present in the hypothalamus, these results suggest that CCK-8 may be a physiologically important growth hormone releasing factor.