Adrenocorticotropic hormone does not induce desensitization in human adrenal cells during fetal life

We investigated whether human fetal adrenal cells pretreated with or continuously exposed to adrenocorticotropic hormone (ACTH) would develop refractoriness of the steroidogenic response. Fetal adrenal glands from fetuses of 18-24 wk gestation, were studied. Fetal zone cells were pretreated with increasing doses of ACTH (0-10(-6) M) for 24 h and then restimulated with a single dose of ACTH (10(-6) M) for an additional 24 h. Regardless of the dose of ACTH in the first incubation, the cells responded to the second stimulation with a 2- to 6-fold increase in dehydroepiandrosterone sulfate (DHAS) production. When human fetal adrenal cells were incubated in the continuous presence of 10(-8) M ACTH for 72 h, DHAS production was increased compared to that of the untreated cultures (5-fold at 24 h and 50-fold at 72 h), and the cells remained responsive during the entire experimental period. In contrast, human adult adrenal cells showed a significant decrease of the steroidogenic response after 48 h of ACTH treatment. Twenty-four hours of incubation with increasing doses of ACTH also increased the basal steroidogenic capacity of the fetal adrenal cells. One of the steroidogenic enzymatic steps stimulated by ACTH pretreatment was that of 17 alpha-hydroxylase/17, 20-lyase, since conversion of pregnenolone and 17 alpha-hydroxypregnenolone to DHAS was increased in a dose-dependent manner. These results demonstrate that human fetal adrenal cells, in contrast to those of the adult, do not become desensitized to ACTH.(ABSTRACT TRUNCATED AT 250 WORDS)     

Steroid secretion by ACTH-stimulated human fetal adrenal tissue during the first week in organ culture

Fetal adrenal tissue has been reported to lose its in vivo secretory pattern by virtue of a loss of fetal zone cells after the first week in culture. Consequently, we studied the steroidogenic capacity and the responsiveness to ACTH of human fetal adrenal tissue during the first week in organ culture. The culture medium was removed daily and assayed for cortisol and dehydroisoandrosterone sulfate (DS). First, as the concentration of ACTH in the medium was increased from 0 to 1 micrograms/ml steroid secretion increased. When tissue fragments were maintained in the absence of ACTH for 3 to 4 days, there was a striking increase in steroid secretion upon addition of ACTH to the medium, with larger rates of secretion of cortisol than DS being observed. Second, the steroidogenic capacity of the separate zones of the fetal adrenal gland was assessed. Tissue from the fetal zone secreted large amounts of DS and small amounts of cortisol, whereas neocortex tissue secreted similar quantities of DS and cortisol. Third, fetal zone tissue was maintained the absence of ACTH for 4 days and thereafter ACTH was added to the media for an additional 6 days. In this experiment, there was a marked increase in DS secretion rate after the addition of ACTH and a smaller increase in cortisol secretion.     

Response of adrenal 3beta-hydroxy-delta5-steroid dehydrogenase to adrenocorticotropin treatment in thiouracil-fed male mice

A number of parallels can be drawn between the reported endocrine status of thiouracil-fed young rodents and that of aged animals, particularly with regard to the hypothalamus-pituitary-adrenal axis. Since the activity of the adrenal steroidogenic enzyme 3beta-hydroxy-delta5-steroid dehydrogenase (3beta-HSD) has been shown to be depressed in aged rats and mice, the present study was done to determine whether exposure of young mice to thiouracil had a similar effect on adrenal 3beta-HSD activity. Feeding the goitrogen thiouracil at 0.25% (w/w) of the maternal diet from conception, and keeping it 0.25% of the offsprings' diet after weaning, significantly elevated activity of 3beta-HSD per gram of adrenal gland above control levels in 4-month-old mice, perhaps to compensate for depressed adrenal mass. Daily subcutaneous injections of physiological saline (0.9%) for 4 days was sufficient to increase 3beta-HSD activity per gram of adrenal tissue in euthyroid (P less than 0.05) but not in thiouracil-fed mice. Subcutaneous administration of ACTH (2 IU daily for 4 days) significantly increased adrenal 3beta-HSD activity to comparable levels in thiouracil-fed and euthyroid animals. Thus, thiouracil enhances the activity of 3beta-HSD per gram of adrenal tissue and does not prevent response of enzyme activity to exogenous ACTH.     

Activation of adrenal function in fetal sheep by the infusion of adrenocorticotropin to the fetus in utero

We determined whether ACTH1-24, infused into fetal lambs at a rate that is known to cause premature labor, elicits changes in the responsiveness of the fetal adrenal glands, and alters the pattern of corticosteroid output. Plasma cortisol (F), corticosterone (B) and progesterone (P4) were measured during 72 h of infusion of saline or ACTH (10 micrograms/h) beginning on Day 127 of pregnancy. Adrenals were then dispersed into isolated cells, and the output of F, B and P4 after exogenous ACTH determined in vitro. Plasma concentrations of F and B were higher in ACTH-treated fetuses. The increment in F (5-to 7-fold) was greater than that in B (2-fold) such that the F:B ratio in plasma of ACTH-treated fetuses on Days 2 and 3 of infusion was 2.5 times higher than in controls. After 72 h of infusion, the adrenal weights in ACTH-treated fetuses (741 +/- 38 mg, +/- SEM; n = 4) were greater than in the control animals (349 +/- 11 mg). There was a significant effect of ACTH pretreatment in vivo on F output by isolated adrenal cells in vitro. Mean increments in F output after addition of ACTH1-24 (5000 pg/ml) in vitro rose from 368 +/- 235 pg/50,000 cells in controls, to 64,639 +/- 19,875 pg/50,000 cells after ACTH in vivo. There was no significant effect of ACTH in vivo on B output in vitro; the ratio of F:B output, either in the absence or presence of ACTH in vitro, was significantly higher in cells from ACTH-pretreated fetuses. There was a significant effect of in vivo ACTH on in vitro P4 output. After ACTH treatment in vivo there was an increase in the vitro output ratio of F:P4, but no change in the output ratio of B:P4. We conclude that ACTH treatment of the fetal lamb in vivo results in activation of fetal adrenal function, increased fetal adrenal responsiveness to ACTH, and directed corticosteroid biosynthesis towards cortisol. Our results are consistent with an increase in fetal adrenal 17 alpha-hydroxylase activity after ACTH treatment.     

Regulation of angiotensin II receptors and steroidogenic responsiveness in cultured bovine fasciculata and glomerulosa adrenal cells

The aim of the present study was to investigate the effect of several effectors on angiotensin II (A-II) receptors and steroidogenic responsiveness in cultured bovine fasciculata cells. Treatment of adrenal cells for 24 h with A-II (0.1 microM), corticotropin (1 nM), phorbol ester (PMA 0.1 microM), calcium ionophore A23187 (0.1 microM) and cyclic 8-bromoAMP (1 mM) produced a loss of A-II receptors whereas the A-II antagonist [Sar1-Ala8]A-II (0.1 microM) led to a small but significant increase. The extent of the down-regulation of receptors following maximal concentrations of A-II was greater than that produced by the other agents. The effects of A-II were dose-dependent with a ID50 of 3 nM. Since cycloheximide and actinomycin blocked the down-regulation of receptors, it seems likely that the effectors lead to the synthesis of certain proteins which inhibit the recycling of internalized receptors. Pretreatment of adrenal cells with A-II induced both homologous (90% decrease) and heterologous (corticotropin 83, PMA and ionophore 76% decrease) steroidogenic desensitization. However, the cAMP response to corticotropin of A-II-pretreated cells was higher (P less than 0.001) than for control cells. Pretreatment with PMA and A23187 also resulted in both homologous and heterologous steroidogenic refractoriness but to a lesser degree than that induced by A-II. In contrast, corticotropin-pretreated cells responded normally to further stimulation with corticotropin or A-II. Similarly pretreatment of bovine adrenal glomerulosa cells with A-II (1 nM and 0.1 microM) and corticotropin (1 nM) also induced A-II receptor loss and steroidogenic refractoriness. The present findings indicate that, in contrast to the results reported in vivo in the rat, where A-II leads to up-regulation of its own receptors on glomerulosa cells and increases steroidogenic responsiveness, this peptide results in both down-regulation and desensitization in cultured bovine fasciculata and glomerulosa cells. Our results also emphasize the absence of correlation between A-II receptor loss and steroidogenic responsiveness.     

Effects of several pro-opiomelanocortin derived peptides on steroidogenesis in ovine and bovine adrenal cells

The effects of several peptides derived from the amino-terminal end of proopiomelanocortin (N-POMC) alone or in combination with ACTH on ovine and bovine adrenal cell steroidogenesis have been studied. Neither porcine N-POMC1-61 amide, nor gamma 3-MSH, nor been studied. Neither porcine N-POMC1-61 amide, nor gamma 3-MSH, nor Lys-gamma 3-MSH alone had any steroidogenic effect while porcine N-POMC1-80 alone had a week but significant steroidogenic effect on isolated adrenal, the effect being more pronounced on cultural adrenal cells. The potentiation by N-POMC peptides of the steroidogenic action of ACTH was investigated using both freshly isolated and cultured adrenal cells. At 10(-8) M N-POMC1-61 amide, gamma 3-MSH and Lys-gamma 3-MSH did not modify the ACTH dose-response for steroids (gluco- and mineralocorticoids) and cAMP production. Likewise, the stimulatory effect of 10(-12) M ACTH was not modified by increasing concentrations (10(-11) to 10(-8) M) of N-POMC1-61 amide or gamma 3-MSH. On the other hand, an additive effect of 10(-8) M N-POMC1-80 on the steroidogenic action of low concentration of ACTH was observed. This again was more pronounced in cultured adrenal cells. The same effects were observed when increasing concentrations of this peptide (10(-9) and 10(-8) M) were added together with 10(-12) M ACTH. This result indicates that the potentiating effects of N-POMC derived peptides on the steroidogenic effect of ACTH which has been described on rat and human adrenal, is not a general phenomenon in mammals.     

Evidence for a possible prostaglandin link in ACTH-induced steroidogenesis.

The steroidogenic response to ACTH prostaglandin E2 (PGE2) was studied in cat adrenocortical cells dispersed with trypsin. The dose-response curves of both agents were qualitatively and quantitatively similar. Exposure to PGE2 or ACTH in the presence of labeled steroid precursor (acetate) resulted in the accumulation of comparable levels of steroid intermediates and end-product. Submaximal or maximal concentrations of ACTH and PGE-2 given simultaneously elicited a response which was no greater than that obtained with either stimulant alone. Although calcium was required for optimal PGE-2 stimulation of steroid production, this requirement with ACTH as the stimulant, but greater than with butyryl cyclic AMP. PGE-2-induced increase in the adrenal cyclic AMP was not statistically significant and was small in relation to that found with equipotent steroidogenic ACTH concentrations. The possible relationship between prostaglandins, cyclic AMP, and calcium in the action of ACTH is discussed.     

Evidence for a possible prostaglandin link in ACTH-induced steroidogenesis

The steroidogenic response to ACTH and prostaglandin E₂ (PGE₂) was studied in cat adrenocortical cells dispersed with trypsin. The dose-response curves of both agents were qualitatively and quantitatively similar. Exposure to PGE₂ or ACTH in the presence of labeled steroid precursor (acetate) resulted in the accumulation of comparable levels of steroid intermediates and end-product. Submaximal or maximal concentrations of ACTH and PGE₂ given simultaneously elicited a response which was no greater than that obtained with either stimulant alone. Although calcium was required for optimal PGE₂ stimulation of steroid production, this requirement for calcium was less than the requirement with ACTH as the stimulant, but greater than with butyryl cyclic AMP. PGE₂-induced increase in the adrenal cyclic AMP was not statistically significant and was small in relation to that found with equipotent steroidogenic ACTH concentrations. The possible relationship between prostaglandins, cyclic AMP, and calcium in the action of ACTH is discussed.     

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 corticotropin, steroidogenic inhibitors and hypophysectomy on the nuclear volumes of fasciculata cells in the rat adrenal cortex.

The purpose of this investigation was to measure quantitatively nuclear volumes in outer fasciculata cells in adrenal glands of rats subjected to chronic stimulation of steroidogenesis by ACTH, or to chronic inhibition of functional activity by hypophysectomy or by injection of the steroidogenic inhibitos, U-8113 (p-aminophenyl butanone) and SU-4885 (metopirone). Nuclear volumes, after a recovery period from those effects, were also measured. Chronic daily administrations of ACTH for 7, 14, and 30 days led to a progressive, statistically significant increase in nuclear volumes of fasciculata cells. These changes were found to have been reversed 14 days after discontinuation of hormone treatment. Hypophysectomy resulted in a significant decrease in nuclear volumes. The steroidogenic inhibitors SU-4885 and U-8113 had a biphasic effect on the nuclear volumes with an early decrease and subsequent increase to normal values. Since a decrease in nuclear volumes in the adrenal glands of inhibitor-treated subjects occurred in the presence of cellular hypertrophy and a significant increase in adrenal weights, it is concluded that changes in nuclear volumes can be positively correlated with the secretory activity of the cell rather than with the sizes of cells or glands.     

Effect of dexamethasone on steroidogenesis and on adrenocortical cyclic AMP and cyclic GMP responses to ACTH

The inhibitory action of dexamethasone on the adrenal steroidogenic response to ACTH was confirmed by im administration of graded doses (5, 10 and 30 ng) of synthetic beta 1-24 ACTH to young adult male rats which had received dexamethasone (0.1 mg/100 g bw) 4 hr prior to sacrifice. Following this, kinetic studies were performed by measuring plasma corticosterone, adrenocortical cyclic AMP and cyclic GMP before and 4, 12 and 30 min after administration of either 10 or 30 ng of ACTH. These doses were selected because their effects could be either completely or partially inhibited by dexamethasone. In rats without dexamethasone all the doses of ACTH which were checked induced an increase in both corticosterone and cyclic AMP and a decrease in cyclic GMP. With the smallest dose of ACTH the earlier administration of dexamethasone resulted in complete suppression of both the steroidogenic response and the cyclic AMP response. With the largest dose of ACTH both responses were diminished. In dexamethasone-treated rats the decrease in cyclic GMP was significantly less pronounced 4 min after ACTH than it was in non-treated rats. These results support the view that cyclic AMP and cyclic GMP might both be concerned with the mechanism of acute adrenal steroidogenesis.     

In vitro interactions between Sertoli cells and steroidogenic cells

Both the cell and the species specificities of the steroidogenic potentiating activity (SPA) of Sertoli cells on Leydig cells were studied using a coculture system. Coculture of purified pig Leydig cells with rat or pig Sertoli cells in the presence of FSH led in both cases, to a significant increase in hCG receptor number and in hCG-stimulated testosterone production. Similarly, coculture of bovine adrenal cells with rat or pig Sertoli cells enhanced the steroidogenic response of adrenal cells to ACTH and angiotensin II. Such effects were not observed when pig Leydig cells or bovine adrenal cells were cocultured with bovine aortic endothelial cells. Coculture of Sertoli and Leydig cells in the presence of hCG, resulted in a significant increase in FSH receptor number and in FSH-induced plasminogen activator activity. Such effects did not occur when Sertoli cells were cocultured with either adrenal or aortic endothelial cells.     

Evidence for 6-keto-PGF1 alpha in adrenal cortex of the rat and effects of 6-keto-PGF1 alpha 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-PGF1 alpha, the hydrolysis metabolite of PGI2, using high-performance liquid chromatography and gas chromatography-mass spectrometry. 6-Keto-PGF1 alpha was present in both incubations of intact tissue and isolated cells of the adrenal cortex, at higher concentrations than either PGF2 alpha or PGE2. Thus, the cortex does not depend upon vascular components for the synthesis of the PGI2 metabolite. Studies in vitro, using isolated cortical cells exposed to 6-keto-PGF1 alpha (10(-6)-10(-4)M), show that this PG does not alter cAMP levels or steroidogenesis. Cells exposed to PGI2 (10(-6)-10(-4)M), however, show a concentration-dependent increase of up to 4-fold in the levels of cAMP without altering cortico-sterone production, ACTH (5-200 microU/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 in situ with PGI2 showed a small decrease in corticosterone production, whereas ACTH greatly stimulated steroid release. Thus, while 6-keto-PGF1 alpha 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.     

The role of protein kinase activation in the control of steroidogenesis by adrenocorticotrophic hormone in the adrenal cortex

A method has been developed for investigation of the effect of adrenocorticotrophic hormone (ACTH) on the state of activation of a cyclic AMP-dependent protein kinase within cells of the adrenal cortex. Enzyme activity was measured in terms of the quantity of (32)P transferred from [gamma-(32)P]ATP to histone under conditions in which bound cyclic AMP did not dissociate from the regulatory subunit of the protein kinase ACTH (1x10(-2)i.u./ml) caused a rapid and complete activation of the cyclic AMP-dependent protein kinase activity within 2min of hormone addition to the isolated cells. In response to a range of ACTH concentrations a sigmoid log dose-response curve for protein kinase activation was obtained, with half-maximal stimulation attained at about 1x10(-3)i.u./ml. However, some low doses of ACTH that elicited a marked (but submaximal) steroidogenic response failed to cause a clear stimulation of protein kinase activity in isolated adrenal cells. Theophylline (2mm) potentiated the effect of ACTH on protein kinase activity. The results implicate an important role for protein kinase in ACTH action on the adrenocortical cell.     

Induction of 5-aminolevulinate synthase by activators of steroid biosynthesis

Different cytochromes P450 are involved in steroid biosynthesis. These cytochromes have heme as the prosthetic group. We previously reported that ACTH, an activator of glucocorticoid biosynthesis in adrenal, requires heme biosynthesis for a maximal response. In the present study, we investigated the effect of ACTH, and the effect of two activators of the adrenal mineralocorticoid synthesis, endothelin-1 and low sodium diet on 5-aminolevulinate-synthase (ALA-s) mRNA. ALA-s is the rate-limiting enzyme in heme biosynthesis. It was found that infusion of rats with ACTH for 1 h caused an increase of adrenal ALA-s mRNA and activity accompanied by an increase in plasma corticosterone. CYP21, a cytochrome involved in the synthesis of both corticosterone and aldosterone, was not modified at the RNA level in adrenal glands by 1 h of ACTH infusion. Consistently, infusion of endothelin-1 for 1 h increased ALA-s mRNA and aldosterone content in adrenal gland without modifying CYP21 mRNA levels. To study if ALA-s is also regulated by the main physiological stimuli that increase adrenal mineralocorticoid secretion, we fed rats with low salt diet for 2 or 15 days. Low salt diet treatment increased adrenal gland ALA-s mRNA levels. On the other hand, the rapid stimulation of ALA-s mRNA by ACTH which acts through cyclic AMP was confirmed in H295R human adrenocortical cells, the only human adrenal cell line that has a steroid secretion pattern and regulation similar to primary cultures of adrenal cells. Our findings suggest that the acute activation of adrenal steroidogenic cytochromes by trophic hormones involves an increase in heme biosynthesis which will favor the production of active cytochromes.     

Effects of ACTH and estradiol on steroid production by cultured adrenal cells from an anencephalic fetus and from normal adults

Dispersed adrenal cells from a 16 1/2 week anencephalic fetus, 7 fetuses with intact pituitaries and 3 adult subjects undergoing renal transplants were maintained in tissue culture and the steroidogenic responses to ACTH (0-10(3) pg/ml), with or without added estradiol (0-10(4) ng/ml) were evaluated. In the anencephalic preparation the response to ACTH was delayed, but by the fifth day production of cortisol, dehydroepiandrosterone (DHA) and DHA-sulfate was similar to that in the other cultured fetal adrenal cells. The addition of estradiol caused dose-related inhibition of cortisol production and concomitant increase in DHA and DHA-sulfate production. The adult adrenal cells in the presence of ACTH showed a much higher cortisol/DHA secretion ratio, but the addition of estradiol markedly reduced this ratio as in fetal cells. The data support the suggestion that the major factors which interact to impose the characteristic fetal pattern of adrenal steroidogenesis are ACTH and the synergistic effects of placental and intra-adrenal steroids (such as estradiol) which act to inhibit 3 beta-hydroxysteroid dehydrogenase activity.     

The effect of calcium concentration on ACTH stimulation of steroidogenesis in mouse adrenal tumor cells

Calcium is required for ACTH stimulated steroidogenesis in adrenal tumor cells in tissue culture. In the absence of calcium, the dose of ACTH required to induce half maximum steroidogenesis was increased 30 fold. In contrast to intact adrenal glands or isolated adrenal cells, high doses of ACTH (50 mU/ml) maximally stimulated steroidogenesis in the absence of calcium. Growth for up to six days in medium with low calcium did not affect basal or ACTH induced steroidogenesis. The addition of calcium to cells incubated with ACTH produced a maximum steroidogenic response in 15 minutes. In contrast to intact adrenal glands, calcium is not required for adenosine-3′,5′-cyclic monophosphate (cyclic AMP) stimulated steroidogenesis in adrenal tumor cells. These experiments support the concept that calcium is important at the level of ACTH-membrane receptor site interaction or activation of adenyl cyclase in adrenal tumor cells.     

Steroidogenic effect of exogenous phospholipase C on bovine adrenal fasciculata cells

Phospholipase C (Bacillus cereus) added to the incubation medium stimulated the steroidogenic activity of bovine adrenal zona fasciculata cell suspensions to a level similar to that induced by optimal concentration of ACTH. This effect was not related to an increase of cyclic AMP; it was calcium-dependent and was also induced by an other bacterial phospholipase C (from Clostridium perfringens) whereas phospholipases A2 and D were ineffective. Phospholipid metabolism was examined in these cells after radiolabeling with [14C]-glycerol or [32P]orthophosphate. Phospholipase C induced a very fast (5 seconds) increase in cellular [14C]-1,2-diacylglycerol followed by [32P] labeling of phosphatidic acid and phosphatidylinositol. These events preceded the stimulation of steroidogenesis which was detectable after 2 minutes of incubation. These observations suggest that activation of an endogenous phospholipase C activity may be considered as an early event in the response of bovine adrenocortical cells to steroidogenic effectors such as angiotensin II and acetylcholine.     

The stimulatory effect of corticotropin on cortisol biosynthetic pathway in guinea-pig adrenocortical cells

The mechanism of the prolonged stimulatory effect of corticotropin (ACTH) on adrenocortical synthesis of cortisol was studied in guinea-pig adrenocortical cells harvested from control animals and from guinea-pigs submitted 24 h before the sacrifice to a prolonged ether anesthesia in an attempt to induce a release of endogenous ACTH. As a result of this in vivo exposure to endogenous ACTH, the maximal capacity to produce glucocorticoids (by 1 X 10(5) cells incubated during 2 h) in response to ACTH increased from 579 +/- 111 ng (control group) to 915 +/- 143 ng for cells from treated animals, whereas the apparent affinity of the steroidogenic response to ACTH remained unchanged. This hyper-reactivity of cells from anesthetized animals was also evident in the presence of dibutyryl cyclic AMP. Moreover, there was increased conversion of exogenous pregnenolone into cortisol by cells from previously anesthetized animals. It was therefore concluded that ACTH increases in a lasting way the activity of steroidogenic pathway leading to cortisol synthesis by adrenocortical cells at sites distal to cyclic AMP generation. Besides an obvious increase of formation of pregnenolone in response to ACTH, it seems that this ACTH-induced enhancement in the capacity of the steroidogenic response to ACTH also implies a prolonged stimulatory influence of the peptide on the post-pregnenolone steroidogenic pathway leading to cortisol synthesis.