Aldosterone production after short-term culture of rat adrenal capsule: responsiveness to angiotensin II, potassium and ACTH

In vitro studies of aldosterone production have traditionally used freshly isolated adrenal glomerulosa tissue. In the present study we examined the effects of short-term culture of rat adrenal capsule on its secretory capacity by measuring both basal and stimulated aldosterone production. Capsules were maintained in culture for 24 h, and then responses to administered angiotensin II (1 X 10(-7) M), potassium (an increase of 2mM) and ACTH (1 X 10(-8) M) were determined during perifusion. Results were compared with responses by freshly isolated adrenal capsule. Although short-term culture reduced basal aldosterone production, responsiveness to administered stimuli was intact and often was greater than that observed with fresh capsular tissue. The results indicate that short-term culture of zona glomerulosa provides a suitable in vitro preparation for examining aldosterone secretory responsiveness to stimuli.     

Aldosterone and corticosterone stimulation by ACTH in isolated rat adrenal glomerulosa cells: interaction with vasopressin

An interaction between ACTH and vasopressin on steroidogenesis was observed in isolated rat adrenal zona glomerulosa cell preparations. 1. The presence of 10(-11) M vasopressin further increased by 52% the output of aldosterone produced by 10(-12) M ACTH on those cells. 2. At a pharmacological concentration of ACTH (10(-7) M), the aldosterone output was increased 5 fold while the addition of 10(-12) M or 10(-8) M vasopressin decreased it by 17% and 48% respectively. 3. Vasopressin also produced a dose-dependent inhibition of the stimulatory effect of ACTH on the output of corticosterone. 4. We have thus shown for the first time, that vasopressin acts directly on adrenal zona glomerulosa cell preparations to modify the aldosterone output by modulating the action of ACTH. It is postulated that, in addition to other known aldosterone regulating factors, ACTH and vasopressin might synergistically act to regulate the secretion of aldosterone in vivo.     

Interaction of ACTH, beta-endorphin and alpha-melanocyte stimulating hormone in relation to the corticosteroid production of isolated rat adrenocortical zona fasciculata and zona glomerulosa cells.

The combined effects of ACTH, beta-endorphin (beta-EP) and alpha-MSH were studied on the corticosteroidogenesis of isolated rat adrenocortical zona fasciculata and zona glomerulosa cells. beta-EP potentiated the effects of ACTH and alpha-MSH on the zona fasciculata corticosterone production but inhibited those on the zona glomerulosa aldosterone production. beta-EP did not affect the combined action of 4 x 10(-11) M ACTH and 5 x 10(-9) M alpha-MSH on the zona fasciculata or the zona glomerulosa cells, but it inhibited the stimulatory action of the combination of 1.6 x 10(-10) M ACTH and 10(-9) M alpha-MSH on the zona glomerulosa aldosterone production. An interaction of ACTH, beta-EP and alpha-MSH in relation to the zona fasciculata and zona glomerulosa corticosteroid production was found.     

Trophic and steroidogenic effects of water deprivation on the adrenal gland of the adult female rat

The effects of a 3-day water deprivation were studied in adult female rats in order to know what are the different zones of the adrenal gland and the hormonal factors involved in the growth and the activity of the adrenal gland. Water deprivation significantly increased plasma renin activity (PRA), plasma Angiotensin II (AII), vasopressin (AVP), epinephrine, aldosterone and corticosterone concentrations but did not modify the plasma adrenocorticotropin hormone (ACTH) level. Water deprivation significantly increased the absolute weight of the adrenal capsule containing the zona glomerulosa without modification of the density of cells per area unit suggesting that the growth of the adrenal capsule was due to a cell hyperplasia of the zona glomerulosa. Water deprivation significantly increased the density of AII type 1 (AT₁) receptors in the adrenal capsule but did not modify the density of AII type 2 (AT₂) receptors in the adrenal capsule and core containing the zona fasciculata, the zona reticularis and the medulla. The treatment of dehydrated female rats with captopril, which inhibits the angiotensin converting enzyme (ACE) in order to block the production of AII, significantly decreased the absolute weight of the adrenal capsule, plasma aldosterone and the density of AT₁ receptors in the adrenal capsule. The concentration of corticosterone in the plasma, the density of AT₂ receptors and the density of cells per unit area in the zona glomerulosa of the adrenal capsule were not affected by captopril-treatment. In conclusion, these results suggest that AII seems to be the main factor involved in the stimulation of the growth and the secretion of aldosterone by the adrenal capsule containing the zona glomerulosa during water deprivation. The low level of plasma ACTH is not involved in the growth of the adrenal gland but is probably responsible for the secretion of corticosterone by the zona fasciculata.     

Secretion of aldosterone and corticosterone by the adrenals of Brattleboro rats in response to ACTH administration

The secretions of aldosterone and corticosterone in response to administration of 0,5 mUI of (1,24) ACTH (synacthène-Ciba) were measured in the adrenal venous blood of 15 Brattleboro female rats genetically lacking vasopressin and in 15 Long-Evans female rats, pretreated with dexamethasone. The secretions of aldosterone and corticosterone increased according to a similar profile in the two groups of animals: maximum values were 20-30 min. after ACTH injection; however the steroidogenic secretion of the adrenal cortex was always about 50% less in the Brattleboro female rats than in Long-Evans female rats. This result suggests mainly that vasopressin may be involved in the mechanisms which control the in vivo production of aldosterone by the adrenal glomerulosa cells.     

Effect of ACTH on biosynthesis of aldosterone and corticosterone by monolayer cultures of rat adrenal zona glomerulosa cells

A method is described for preparing monolayer cultures of zona glomerulosa cells isolated from the rat adrenal cortex. Aldosterone and corticosterone were secreted by the cultures when maintained with medium containing 11 mM K⁺. ACTH, while stimulating aldosterone biosynthesis at first, did not maintain its long-term secretion, yet caused corticosterone production to rise to a steadily maintained level. The significance of this effect is discussed.     

Orexins stimulate corticosterone secretion of rat adrenocortical cells, through the activation of the adenylate cyclase-dependent signaling cascade

Orexins-A and B are two novel hypothalamic peptides, which, like leptin and neuropeptide-Y (NPY), are involved in the central regulation of feeding. Since leptin and NPY were found to modulate adrenal function, we have examined whether orexins are able to directly affect rat adrenal steroid secretion. Both orexin-A and orexin-B raised basal corticosterone secretion of dispersed rat zona fasciculata–reticularis (ZF/R) cells, their maximal effective concentration being 10⁻⁸ M. In contrast, orexins did not affect either maximally ACTH (10⁻⁹ M)-stimulated corticosterone production by ZF/R cells or the basal and agonist-stimulated aldosterone secretion of dispersed zona glomerulosa cells. The ACTH-receptor antagonist corticotropin-inhibiting peptide (10⁻⁶ M) annulled corticosterone response of ZF/R cells to ACTH (10⁻⁹ M), but not to orexins (10⁻⁸ M). Orexins (10⁻⁸ M) enhanced cyclic-AMP release by ZF/R cells, and the selective inhibitor of protein-kinase A (PKA) H-89 (10⁻⁵ M) abolished corticosterone responses to both ACTH (10⁻⁹ M) and orexins (10⁻⁸ M). A subcutaneous injection of both orexins (5 or 10 nmol/kg) evoked a clear-cut increase in the plasma concentration of corticosterone (but not aldosterone), the effect of orexin-A being significantly more intense than that of orexin-B. Collectively, these findings suggest that orexins exert a selective and direct glucocorticoid secretagogue action on the rat adrenals, acting through a receptor-mediated activation of the adenylate cyclase/PKA-dependent signaling pathway.     

Role of chain termini in selective steroidogenic effect of ACTH/MSH(4-10) on isolated adrenocortical cells

To investigate the role of charged chain ends in the corticosteroidogenic effect of ACTH/MSH(4-10), acetyl and amide derivatives of ACTH/MSH(4-10) were synthesized and tested in isolated zona glomerulosa and zona fasciculata cells. ACTH/MSH(4-10)-NH2, Ac-ACTH/MSH(4-10) and Ac-ACTH/MSH(4-10)-NH2 (10 microM to 1 mM) stimulated the aldosterone production of zona glomerulosa cells, whereas these peptides did not stimulate the corticosterone production of zona fasciculata cells, even at 1 mM concentration. As ACTH/MSH(4-10) has been shown to have a steroidogenic effect on both types of adrenocortical cells, both charged chain termini seem to be essential for triggering of the corticosterone production of zona fasciculata cells, but for aldosterone production their presence appears not to be important.     

Interrenal activity in the female lizard Lacerta vivipara J.: in vitro response to ACTH 1-39 and to [Sar1, Val5] angiotensin II (ANG II)

A perifusion system technique was developed in order to determine in vitro the respective roles of ACTH and ANG II in the regulation of adrenal steroidogenesis in the lizard Lacerta vivipara. Synthetic human ACTH 1-39, administered as 20-min pulses, stimulated corticosterone (B) and aldosterone (A) release in a dose-dependent manner. The increase in corticosterone output was higher than that in aldosterone output, leading to an enhancement of the B/A ratio. Iterative stimulations with 1 nM ACTH (20-min pulses every 120 min) led to reproducible increases in corticosterone and aldosterone release. Prolonged stimulation with 1 nM ACTH (up to 240 min) caused a sustained increase in corticosteroid release, suggesting that, in the lizard, ACTH does not induce any desensitization phenomenon. The angiotensin II analogue [Sar1, Val5] ANG II also stimulated corticosterone and aldosterone release in a dose-dependent manner; the stimulatory effects of ANG II on both steroids were very similar. These results indicate that, in lizards, ACTH plays a major role in the regulation of adrenal steroidogenesis. Since ANG II stimulates the production of gluco- and mineralocorticoids, our data raise the question of the existence of two cell types synthesizing corticosterone and aldosterone, respectively, in reptiles.     

Column perifusion system for steroidogenesis in isolated rat adrenal cells

A perifusion system using a plastic column into which isolated rat adrenal cells had been installed was attempted. After ACTH or cAMP was administered to the column, the corticosterone concentration in the eluate was determined. ACTH in 10(-13) and 10(-12) M did not promote corticosterone production, whereas 10(-11) and 10(-10) M showed a dose dependent production of corticosterone. By iterative infusion of 10(-11) or 10(-9) M of ACTH, very clear responses to restimulation of ACTH were noted. Following the administrations of 10(-3) or 10(-2) M of dibutyryl adenosine 3',5'-cyclic monophosphate (dbcAMP), the production of corticosterone increased dose-dependently. These results suggest that this perifusion system is effective for examining the effects of ACTH or cAMP on steroidogenesis of cells.     

Effect of vinblastine, a potent antimicrotubular agent on steroid secretion by perifused frog adrenal glands

The role of microtubules in adrenal steroidogenesis was examined in vitro, using frog interrenal tissue. Adrenal dice from Rana ridibunda were perifused with amphibian culture medium and the effect of various antimicrotubular drugs was studied. The amounts of corticosterone and aldosterone released in the effluent perifusate were radioimmunoassayed using specific antisera. Administration of colchicine, nocodazole, and vinblastine (10(-5) M) did not affect spontaneous secretion of corticosterone and aldosterone. These results indicated that, in contrast to microfilaments which play an important role in spontaneous steroidogenesis, the microtubular system is not required for basal corticosteroid secretion. However, vinblastine (10(-5) M) was responsible for a marked decrease in ACTH-induced stimulation of corticosterone and aldosterone production. Conversely, vinblastine did not significantly alter the response of interrenal tissue to dibutyryl cAMP, forskolin and NaF, indicating that the microtubules are involved in an early step of ACTH action, namely at the level of the receptor subunit.     

Rat glomerulosa cells in primary culture and E. coli lipopolysaccharide action

During endotoxic shock there is a dysfunction of the adrenal gland; both corticosterone and aldosterone secretion are altered. The aim of the present study is to use glomerulosa cells in primary culture as a target of lipopolysaccharide (LPS) action. Glomerulosa cells cultured in basal conditions are able to proliferate; bFGF and ACTH have antagonic effects, bFGF increases proliferation whereas ACTH is antimitogenic. LPS has a biphasic effect, in the short term it is antimitogenic and in the long term increases the proliferation rate. LPS inhibits ACTH-induced corticosterone secretion in a dose-dependent manner in glomerulosa cells in culture similar to that in fasciculata cells, but it does not exert an important direct effect on aldosterone secretion. These results show that LPS exerts different effects in ACTH and ANG II signal transduction pathways and in the two enzymes which catalyze the late step in the steroidogenesis, 11beta-hydroxylase and aldosterone synthase, which could be in agreement with the existence of both enzymes, regulated independently, in rat zona glomerulosa cells.     

Effect of atrial natriuretic peptide on ACTH, dibutyryl cAMP, angiotensin II and potassium-stimulated aldosterone secretion by rat adrenal glomerulosa cells

We examined the effect of rat atrial natriuretic peptide (ANP) on ACTH, dibutyryl cAMP, angiotensin II and potassium-stimulated aldosterone secretion by dispersed rat adrenal glomerulosa cells. ANP inhibited ACTH, angiotensin II and potassium-stimulated aldosterone secretion with IC50's between 0.15-0.20 nM. Inhibition by 10 nM ANP could not be overcome with higher concentrations of these stimuli. ANP shifted the dibutyryl cAMP dose-response curve slightly to the right but did not blunt the maximal aldosterone secretory response. The sites of ANP inhibition in the aldosterone biosynthetic pathway for these stimuli were also examined. ANP inhibited activation of the cholesterol desmolase (CD) enzyme complex by ACTH, angiotensin II and potassium. Activation of the corticosterone methyl oxidase (CMO) enzyme complex by potassium was inhibited by ANP, however, activation by ACTH was not blocked. We concluded that: 1) ANP is a potent inhibitor of ACTH, angiotensin II and potassium-stimulated aldosterone secretion; 2) inhibition of ACTH stimulation is primarily due to lower cAMP levels and; 3) inhibition of angiotensin II and potassium stimulation reflects a block in the activating mechanism of the CMO and/or CD enzyme complexes, whereas CD but not CMO activation by ACTH is inhibited by ANP.     

Atrial natriuretic peptide inhibits the stimulation of aldosterone secretion by ACTH in vitro and in vivo

Previous studies have shown that atrial natriuretic peptide (ANP) inhibits the secretion of aldosterone by isolated adrenal glomerulosa cells stimulated by angiotensin II, ACTH and potassium in vitro and by angiotensin II in conscious unrestrained rats. In this study we investigated further the effects of synthetic ANP on the dose-response curve of aldosterone secretion stimulated by ACTH in vitro. ANP displaced the dose-response curve of aldosterone to ACTH to the right with a significant change in EC50. A similar effect of ANP was reproduced in vivo in conscious unrestrained rats. There was no significant effect of ANP on the corticosterone response to ACTH in vivo. ANP is a potent regulator of aldosterone secretion which may modulate the effects of ACTH on the adrenal in vitro and in vivo.     

Gastric inhibitory polypeptide stimulates glucocorticoid secretion in rats, acting through specific receptors coupled with the adenylate cyclase-dependent signaling pathway.

Gastric inhibitory polypeptide (GIP) is a 42-amino acid peptide, belonging to the VIP-secretin-glucagon superfamily, some members of this group are able to regulate adrenocortical function. GIP-receptor mRNA has been detected in the rat adrenal cortex, but investigations on the effect of GIP on steroid-hormone secretion in this species are lacking. Hence, we have investigated the distribution of GIP binding sites in the rat adrenal gland and the effect of their activation in vivo and in vitro. Autoradiography evidenced abundant [125I]GIP binding sites exclusively in the inner adrenocortical layers, and the computer-assisted densitometric analysis of autoradiograms demonstrated that binding was displaced by cold GIP, but not by either ACTH or the selective ACTH-receptor antagonist corticotropin-inhibiting peptide (CIP). The intraperitoneal (IP) injection of GIP dose-dependently raised corticosterone, but not aldosterone plasma concentration: the maximal effective dose (10 nmol/rat) elicited a twofold increase. GIP did not affect aldosterone and cyclic-AMP release by dispersed zona glomerulosa cells. In contrast, GIP enhanced basal corticosterone secretion and cyclic-AMP release by dispersed inner adrenocortical cells in a concentration-dependent manner, and the maximal effective concentration (10(-7) M) evoked 1.5- and 2.4-fold rises in corticosterone and cyclic-AMP production, respectively. GIP (10(-7) M) did not display any additive or potentiating effect on corticosterone and cyclic-AMP responses to submaximal or maximal effective concentrations of ACTH. The corticosterone secretagogue action of 10(-7) M GIP was abolished by the protein kinase A (PKA) inhibitor H-89 (10(-5)M), and unaffected by CIP (10(-6)M). Collectively, these findings indicate that GIP exerts a moderate but statistically significant stimulatory effect on basal glucocorticoid secretion in rats, acting through specific receptors coupled with the adenylate cyclase/PKA-dependent signaling pathway.     

Serotonin stimulates corticosteroid secretion by frog adrenocortical tissue in vitro

The mode of action of serotonin (5-HT) in the regulation of frog adrenal steroidogenesis was studied in vitro using the perifusion system technique. Graded doses of 5-HT (from 10(-8) to 10(-6) M) increased both corticosterone and aldosterone production in a dose-dependent manner. Short pulses (20 min) of 10(-6) M 5-HT, administered at 130 min intervals within the same experiment, did not cause any desensitization phenomenon. Indomethacin (IDM; 5 microM), a cyclooxygenase inhibitor which induced a dramatic decrease in the spontaneous secretion of corticosteroids, did not impair the stimulatory effect of 5-HT on corticosterone and aldosterone production. In the absence of calcium, 5-HT (10(-6) M) was still able to stimulate corticosteroid production. Dantrolene (5 x 10(-5) M), a blocker of calcium mobilization from intracellular pools which significantly inhibited the spontaneous production of corticosteroids, did not suppress 5-HT-evoked corticosteroid secretion. These results show that 5-HT, stored in adrenal chromaffin cells, may act as a paracrine factor to stimulate adrenal steroidogenesis in the frog. Our data also indicate that the mechanism of action of 5-HT does not depend on prostaglandin biosynthesis.     

Origins of the differences in function of rat adrenal zona glomerulosa cells incubated as intact tissue and as collagenase-prepared cell suspensions

While in vitro incubation of dispersed cell preparations of adrenal cell types has been widely used as an experimental model, few studies have addressed the possibility that the enzymic and mechanical treatments involved may affect tissue functions. Using rat adrenal whole capsule tissue, consisting of glomerulosa cells still attached to the connective tissue capsule together with some fasciculata cells, and dispersed glomerulosa cell preparations formed by a variety of enzymic and incubation treatments, striking differences have been demonstrated between the functions of the various preparations in vitro. Under ACTH stimulation, whole capsules produced (ng per pair ± s.e.) 405 ± 35 ng aldosterone, 650 ± 60 ng 18-hydroxycorticosterone (18-OH-B) and 850 ± 90 ng corticosterone. In cells dispersed by collagenase incubation followed by repeated pipetting and filtration, aldosterone and 18-OH-B yields under ACTH stimulation fell to values less than 10% of those produced by whole tissue, whereas corticosterone values were unchanged. Omitting the filtration step gave a less well marked decline in aldosterone and 18-OH-B to 50% of intact tissue values. When the tissue was not dispersed after collagenase incubation, aldosterone and 18-OH-B outputs were similar in the two preparations. The decline in aldosterone and 18-OH-B is not attributable to loss in cell–cell contact alone, since short term culture of collagenase dispersed cells on contracting collagen discs did not restore the capacity to produce these steroids, and a decline in their output also occurred in similar culture of intact capsule tissue. In acute incubations, hyaluronidase had similar effects to collagenase, whereas trypsin, papain and a bacterial protease evoked aldosterone release during the preincubation period, but did not affect subsequent yields of aldosterone and 18-OH-B in incubations of dispersed (but not filtered tissue) in the presence of ACTH. Chymo-trypsin had no effect on preincubation but eliminated subsequent response to ACTH in all incubation conditions. Together with previously published data on the effects of trypsin, the results support the view that in intact rat adrenal glomerulosa tissue, aldosterone and 18-OH-B are sequestered into intracellular stores in the form of novel steroid-protein complexes. These are hydrolysed by trypsin and other preoteases with consequent release of steroid, but are virtually eliminated by conventional methods of cell suspension preparations, using collagenase preincubation with subsequent mechanical dispersal and filtration.     

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.     

Direct effects of heparin on basal and stimulated aldosterone production in rat adrenal glomerulosa cells

Direct effects of heparin (0.1-10 IU/ml) on basal and stimulated aldosterone production have been studied using intact rat adrenal glomerulosa cells. Heparin at any dose did not affect basal aldosterone production when added to the incubation medium. Heparin at a 0.01 IU/ml dose had no effect on aldosterone production maximally stimulated by angiotensin II (AII, 4.8 X 10(-8) M), ACTH (4.3 X 10(-9) M) or potassium (8.0 mM). However, heparin at 0.1 and 0.3 IU/ml doses selectively blocked aldosterone production maximally stimulated by AII but not by ACTH or potassium, while the compound at 1 and 10 IU/ml doses inhibited aldosterone production maximally stimulated by these three stimuli. In addition, the inhibitory effect of 0.3 IU/ml heparin occurred as early as 30 min after incubation with heparin. These data suggest that heparin at 0.1 and 0.3 IU/ml doses acts directly on adrenal zona glomerulosa to selectively block the stimulatory action of AII, while the compound at 1 and 10 IU/ml doses inhibits all the stimulatory actions of AII, ACTH and potassium.     

Effect of the intermediate filament inhibitor IDPN on steroid secretion by frog adrenal glands

In order to determine the role of intermediate filaments in adrenal steroidogenesis, we have studied the effect of IDPN (beta-beta'iminodipropionitrile), an intermediate filaments perturbing agent, on corticosteroid secretion by frog interrenal glands in vitro. A 6-h administration of IDPN (10(-3) M) did not affect the spontaneous release of corticosterone and aldosterone. While IDPN did not alter the response of adrenal fragments to ACTH, the drug caused a marked decrease in angiotensin II-induced stimulation of corticosterone and aldosterone production. These results indicate that, in contrast to microfilaments, which play an important role in spontaneous steroidogenesis, intermediate filaments are not required for basal corticosteroid secretion but are involved in the mechanism of action of angiotensin in frog adrenocortical cells.