The role of calmodulin antagonists on steroidogenesis by fetal zone cells of the human fetal adrenal gland

The adrenal gland of the human fetus (HFA) is relatively large compared to that of the adult and exhibits an extremely high rate of steroidogenesis both in vivo and in vitro. The fetal zone cells make up 80-85% of the volume of the HFA and are the major site of steroid production during fetal development. We have recently demonstrated that calcium is involved in the regulation of steroidogenesis in fetal zone cells of the HFA. There is considerable evidence that many actions of calcium within cells are mediated by the calcium-binding protein calmodulin. The purpose of the present investigation was to determine if calmodulin also plays a role in HFA steroidogenesis. To investigate this possibility, the fetal zone was dissected from fetal adrenals of first and second trimester human abortuses. After collagenase digestion of the tissue, dispersed fetal zone cells were maintained in a Krebs-Ringers medium at 37 C for a 3-h incubation. Cells were incubated with and without ACTH (10(-8) M) in the presence of the calmodulin inhibitors trifluoperazine (TFP), chlorpromazine (CPZ), and calmidazolium (CAL) at concentrations of 5-100 microM. The media were assayed for contents of dehydroepiandrosterone sulfate (DS), cortisol (F), pregnenolone, and cAMP by RIA. The addition of ACTH stimulated F secretion 5- to 10-fold compared to that in control fetal zone cells. DS secretion increased up to 5-fold and pregnenolone about 2-fold in the presence of ACTH compared to values in control cells. ACTH also stimulated cAMP secretion by 10-fold compared to that in control cells. The addition of TFP, CPZ, and CAL significantly inhibited ACTH-stimulated DS, F, and pregnenolone secretion in a dose-related fashion to near-control levels. We observed that TFP, CPZ, and CAL inhibited cAMP accumulation as well as Bu2cAMP-stimulated steroid secretion. The metabolism of 22R-hydroxycholesterol to pregnenolone was inhibited by TFP and CPZ, but not by CAL. These studies suggest that calmodulin plays a role in regulating steroidogenesis in fetal zone cells of the HFA.     

Characterization of steroidogenesis in cell cultures of the human fetal adrenal cortex: comparison of definitive zone and fetal zone cells

The steroidogenic capacity of cells cultured from the definitive zone and fetal zone of the human fetal adrenal cortex was compared, using a serum-free medium without lipoproteins. Comparison of [3H]pregnenolone and [3H]progesterone metabolism in cultures from each zone incubated without ACTH indicated that only 3 beta-hydroxysteroid dehydrogenase, delta 4,5-isomerase (3 beta-HSD) activity was deficient in fetal zone cultures. Basal 3 beta-HSD activity was 3- to 5-fold lower in fetal zone cultures than in definitive zone cultures assayed after 3 or 10 days in culture. Although basal hydroxysteroid sulfotransferase activity was 2- to 4-fold greater in 3-day-old fetal zone cultures than in definitive zone cultures, this difference was not found in 10-day-old cultures due to a 3-fold decrease in fetal zone basal hydroxysteroid sulfotransferase activity. However, older cultures of fetal zone cells did maintain the characteristic high delta 5-steroid sulfate and low delta 4,3-ketosteroid basal production from [3H] pregnenolone as compared to definitive zone cultures. ACTH treatment for 48 h in serum-free medium increased the steroidogenic capacity of cell cultures from both zones and stimulated delta 4,3-ketosteroid production from [3H]pregnenolone and 3 beta-HSD activity in fetal zone cultures to levels characteristic of the definitive zone. These studies show that in the absence of ACTH the difference in steroidogenic capacity between the fetal zone and the definitive zone (due to the lower 3 beta-HSD activity in fetal zone cells) was maintained in cell cultures for a period up to 10 days.     

The role of serum lipoproteins in steroidogenesis by the human fetal adrenal cortex.

In the present investigation it was found that human fetal adrenal tissue maintained in organ culture secreted appreciable quantities of dehydroisoandrosterone sulfate (DS) and cortisol. Pregnenolone was also secreted in significant amounts, principally as the sulfate ester. The highest rate of secretion of these steroids by fetal adrenal tissue occurred when both ACTH and whole human serum were present in the culture medium. In the absence of ACTH, steroid secretion was low. When whole serum was replaced by lipoprotein-poor serum, the steroidogenic response to ACTH was markedly attenuated but not abolished. On the basis of these findings, it is concluded (1) that the human fetal adrenal can synthesize steroid hormones de novo from cholesterol, (2) that ACTH is an important stimulant of steroidogenesis by the human fetal adrenal, and (3) that plasma lipoproteins are a major source of the cholesterol utilized by the human fetal adrenal for steroidogenesis. Hence, it is likely that factors which regulate the production of fetal plasma lipoproteins are important determinants of fetal adrenal steroidogenic activity.     

The action of phorbol ester on steroidogenesis in cultured human fetal adrenal cells

The potent mitogen and tumor promoter, phorbol 12-myristate 13-acetate (PMA), has a primary action via activation of calcium-dependent protein kinase C. The treatment of monolayer cultures of human fetal adrenal neocortex (HFA) cells with PMA (50-250 nM) stimulated basal dehydroepiandrosterone sulfate (DS) secretion 2-3 fold. ACTH-treated HFA cells secreted amounts of DS and cortisol (F) 10-50 fold greater than basal secretions. PMA (250 nM) addition with ACTH to HFA cells decreased DS and F secretions at least 75% on days 2 and 3 of treatment. Treatment of HFA cells with 4 alpha-phorbol, which does not activate calcium-dependent protein kinase C, did not inhibit steroidogenesis. The attenuated rates of steroidogenesis after PMA treatment correlated with the decreased amounts of steroid 11 beta, 17 alpha- and 21-hydroxylase cholesterol side-chain cleavage steroid dehydrogenase and sulfotransferase activities. The decrease of steroid 17 alpha-hydroxylase activity correlated with the decreased amount of cytochrome P-450(17) alpha as determined after protein immunoblotting of NaDodSO4 cell lysates. After PMA treatment the ACTH-promoted increases of hydroxysteroid sulfotransferase and dehydrogenase activities of HFA cells were suppressed. PMA (50 nM) inhibited cAMP accumulation in ACTH-treated HFA cells, while 4 alpha-phorbol had no effect. Importantly, dibutyryl cAMP (0.2 mM) treatment of HFA cells did not reverse phorbol ester-promoted attenuation of steroidogenesis. We conclude that, in the presence of ACTH, phorbol ester chronically inhibits both cAMP synthesis and cAMP-dependent protein kinase action with resultant decreased steroidogenic enzyme synthesis and steroid production. This may be a consequence of activation, migration and a slow degradation of protein kinase C activity. These multifaceted actions of phorbol ester and associated protein kinase C activation may have critical effects on the ontogeny of fetal adrenal function.     

The role of cyclic adenosine 3',5'-monophosphate in cholesterol metabolism and steroidogenesis by the human fetal adrenal gland

In the present investigation we studied the role of cAMP as a mediator of ACTH action in human fetal adrenal (HFA) tissue. We have characterized the response to ACTH, dibutyryl adenosine 3',5'-cyclic monophosphoric acid (dbcAMP), and cholera toxin (CT) with respect to steroidogenesis, low density lipoprotein (LDL) binding, degradation of LDL, and the rate of de novo synthesis of cholesterol. The rate of dehydroisoandrosterone sulfate secretion was similar in HFA tissue maintained in the presence of ACTH, dbcAMP, or CT. In contrast, cortisol secretion by HFA tissue was more sensitive to dbcAMP and CT than to ACTH. In membrane preparations obtained from HFA tissue maintained in the presence of ACTH, dbcAMP, or CT, there was a 2 to 3-fold increase of specific binding of [125I]iodo-LDL. In HFA tissue maintained in the presence of ACTH or CT, the rate of degradation of LDL was significantly increased compared to tissue maintained in the lipoprotein-poor serum alone. Finally, in HFA tissue maintained in the presence of ACTH, dbcAMP, or CT there was a 6- to 10-fold stimulation of the rate of incorporation of [14C]acetate into cholesterol. We conclude that steroidogenesis, LDL binding, and degradation, as well as de novo synthesis of cholesterol, are probably stimulated in HFA tissue via a cAMP-mediated pathway.     

Role of hCG in regulation of the fetal zone of the human fetal adrenal gland.

It has been suggested that hCG is a trophic hormone for the fetal zone of the human fetal adrenal gland. To test this hypothesis, the isolated fetal zones of adrenals from eight fetuses (12-17-week gestation age) were superfused in the presence or absence of hCG. Dehydroepiandrosterone sulfate (DHAS) was measured in the superfusion effluent. A significant increase in DHAS production was observed in the presence of hCG. DHAS secretion decreased during the first 60 min in the control and experimental superfusions from 83 +/- 10.0 (mean +/- SE) to 71 +/- 8.0, and from 90 +/- 9.0 to 70 +/- 6.0 ng/100 mg/ml, respectively. In the presence of hCG (250 ng/ml), DHAS secretion increased significantly (P less than 0.01) over the controls to 116 +/- 12.0 at 120 min, and remained above the controls thereafter. These results support the hypothesis that hCG is one of the regulators of DHAS production by the human fetal adrenal gland early in gestation. As we found that ACTh stimulated DHAS secretion in a previous study and as there is indirect evidence for a role of ACTH in DHAS regulation late in pregnancy, these observations suggest dual regulation by hCG and ACTH early in pregnancy, and a possible transition to ACTH regulation of the fetal zone of the human fetal adrenal after midgestation.     

Adenylate cyclase activity in neocortex and fetal zone membrane fractions of the human fetal adrenal gland

Whether peptide hormones other than ACTH may be responsible for the difference in size or rate and pattern of steroidogenesis of the fetal zone (FZ) compared to those of the neocortex (NC) of the human fetal adrenal gland is controversial. In the present investigation, the activity of adenylate cyclase in membrane fractions of separated zones of the human fetal adrenal gland was determined. Basal adenylate cyclase activity was 2- to 3-fold greater in NC than in FZ membrane fractions. The addition of ACTH-(1-24) stimulated adenylate cyclase activity in both zones, but the activity was more sensitive to ACTH (10(-10) M) in NC fractions than in FZ fractions (10(-7) M). In addition to ACTH-(1-24), the effect of other ACTH-related peptides on the activity of adenylate cyclase in the separated zones of the adrenal gland was investigated. 16K fragments 2-36, gamma 3MSH, alpha MSH, beta-endorphin, leu-enkephalin, and met-enkephalin, as well as hCG, FSH, prostaglandin E2, prostaglandin F2 alpha, epinephrine, and norepinephrine did not stimulate adenylate cyclase activity in either zone. It is concluded that basal and ACTH-(1-24)-stimulated adenylate cyclase activities are greater in NC than in FZ membrane fractions. In addition, the results of the present investigation do not support the concept that other ACTH-related peptides or peptide or protein hormones increase steroidogenesis by stimulating adenylate cyclase activity in the human fetal adrenal gland.     

3 beta-hydroxysteroid dehydrogenase/isomerase in the fetal zone and neocortex of the human fetal adrenal gland

The fetal zone of the human fetal adrenal (HFA) gland is established to have decreased 3 beta-hydroxysteroid dehydrogenase/delta 4-5 isomerase (3 beta HSD) activity compared to the neocortex or definitive zone. 3 beta HSD activity, however, can be induced in primary cell culture through treatment with ACTH. Therefore, the HFA with two distinct steroidogenic zones with differences in 3 beta HSD activity as well as the capacity to increase 3 beta HSD activity in response to ACTH provides an excellent model to study the regulation of this enzyme. The presence of 3 beta HSD in the fetal and neocortex zones of the HFA was examined using a polyclonal antibody raised against purified human placental microsomal 3 beta HSD. After homogenates of the fetal and neocortical zones of the HFA were electrophoresed on a sodium dodecyl sulfate-polyacrylamide gel and immunoblotted, the presence of the 3 beta HSD protein with a molecular size of 45 kDa could be demonstrated only in the neocortical zone. ACTH treatment (greater than 2 days) of fetal and neocortical zone explant cultures produced increases in cortisol secretion associated with the respective levels of immunodetectable 3 beta HSD protein. Cortisol and dehydroepiandrosterone sulfate were the respective principal steroid products of neocortical and fetal zone explants. After ACTH treatment, immunodetectable 3 beta HSD was induced to a greater magnitude in the neocortex. These findings provide evidence that the lack of 3 beta HSD activity in the fetal zone, previously considered to be the result of the presence of an endogenous inhibitor, is due to an absence of the protein in this portion of the gland. The lack or minimal expression of 3 beta HSD in the fetal zone of HFA may be due to the action (or lack thereof) of a tissue-specific factor regulating the synthesis of 3 beta HSD.     

Identification of definitive and fetal zone markers in the human fetal adrenal gland reveals putative developmental genes

Organogenesis is a coordinated process involving cell replication, differentiation, adhesion, and migration. We seek to understand the complex developmental signals involved in the ontogeny of the human fetal adrenal gland. The gland is comprised initially of two zones, the definitive and fetal zones. A third zone, the transitional zone, develops between them after midgestation. We have suggested that the definitive zone is comprised of a pool of progenitor cells that proliferate and differentiate into cells of the transitional and fetal zones. However, it has not been possible to demonstrate that definitive zone cells have this capacity because of the absence of protein markers unique to these cells; thus, they could not be purified or positively identified. We sought to identify definitive and fetal zone markers to facilitate cell sorting and identify molecules of biological interest in adrenal development. We performed subtractive hybridization, in situ hybridization, and immunofluorescence to identify unique markers of definitive zone cells. NovH and metallopanstimulin were identified by subtraction hybridization, primarily in the definitive zone. P-Glycoprotein, also principally on definitive zone cells, and the low density lipoprotein (LDL) receptor, predominantly on fetal zone cells, were identified by immunofluorescence. Identification of cellular markers unique to each zone of the fetal adrenal gland will enhance the ability to characterize the proliferative potential of definitive zone cells and assess their capacity to differentiate into cells of the transitional and fetal zones. Purified cells also will permit detailed molecular and mechanistic studies of regulation of human fetal adrenal development.     

The effect of calcium on steroidogenesis in isolated human adrenal cells (author's transl)]

The present experiment was planned to verify the effect of calcium on adenyl cyclase in isolated human adrenal cells. Normal adrenal glands were obtained surgically from patients with primary aldosteronism and advanced breast cancer. Isolated adrenal cells were prepared by the modified Haning's method. They were incubated at 37C under a gas mixture of 95 percent O2: 5 percent CO2 in calcium-free Krebs-Ringer bicarbonate buffer solution containing 0.2 percent glucose and 0.5 percent fatty acid-free bovine serum albumin, to which various doses of CaCl2 or ACTH were added. Thirty minutes later, cyclic-AMP was measured by cyclic-AMP assay kit (The Radio-chemical Center, Amersham). 11-OHCS was estimated fluorometrically by the modified Silber's method after incubation for 2 hours. In the calcium-free incubation medium, productions of 11-OHCS and cyclic-AMP were negligible. In the concentration of 2.54 mM/L of calcium, 11-OHCS production increased with significant difference statistically, while the increase of cyclic-AMP production was not significant. In the concentration of 12.70 mM/L of calcium, however, cyclic-AMP production increased remarkably. When ACTH was added to the incubation medium containing 2.54 mM/L of calcium, productions of 11-OHCS and cyclic-AMP also increased remarkably. These results indicate that adenyl cyclase of human adrenocortical cells is directly stimulated by calcium and suggest that calcium acts as the second messenger of ACTH.     

Protein kinase-C in the human fetal adrenal gland

The fetal zone (FZ) of the human fetal adrenal gland undergoes rapid growth and exhibits a high rate of steroidogenesis throughout fetal life. In addition to cAMP-dependent processes regulating steroidogenesis and possibly growth of the FZ, evidence is accumulating that cAMP-independent mechanisms are also involved. The purpose of this study was to determine if the phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA), a potent stimulator of protein kinase-C activity, stimulates steroidogenesis in FZ cells and to characterize protein kinase-C activity in FZ, neocortex zone, and anencephalic adrenal tissues. Adrenal glands were obtained from first and second trimester abortions and two anencephalic fetuses. The FZ was dissected from the neocortex. In some experiments, dispersed FZ cells were incubated in the presence and absence of ACTH and TPA for 3 h. TPA and ACTH stimulated steroidogenesis 2- and 5-fold, respectively. In other experiments, the separated zones and anencephalic adrenal tissues were homogenized, and the homogenates were subjected to DEAE-cellulose column chromatography. A single peak with phospholipid- and calcium-dependent activity was found. Subcellular distribution studies demonstrated greatest activity in the cytosolic fraction. The specific activity of protein kinase-C was significantly greater in FZ than neocortex zone, whether expressed per mg protein or per microgram DNA content. The activity in anencephalic tissue was low. In addition, protein kinase-C (80,000-dalton molecular size protein) was detected in adrenal tissues after electrophoresis and immunoblotting using an antibody directed against protein kinase-C. Greater amounts of protein kinase-C were detected in FZ tissue than in NC or anencephalic adrenal tissue. These results indicate that the lower activities of protein kinase-C in neocortex and anencephalic adrenal tissues were due to low amounts of enzyme rather than inactive enzyme. In summary, TPA-stimulated steroidogenesis in fetal zone cells and fetal zone cells contained greater activity and a greater amount of protein kinase-C than neocortex cells. Minimal activity and enzyme protein were found in anencephalic tissues. These results suggest that cAMP-independent mechanisms may play a role in fetal adrenal steroidogenesis.     

Effect of calcium on steroidogenesis in isolated human adrenal cells (author's transl)]

Isolated adrenal cells were obtained surgically from patients with primary aldosteronism, breast cancer, or Cushing's syndrome. They were prepared by the modification of Sayers method, and incubated at 37 degrees C for 2 hours under 95% O-2-5% CO-2, in the medium of calcium-free Krebs-Ringer bicarbonate buffer containing 0.2% glucose and 0.5% bovine serum albumin, to which various doses of calcium, ACTH, dibutyryl cyclic AMP or cycloheximide were added. Steroid production was measured by the method of Silber et al. In isolated normal adrenocortical cells, 11-OHCS was produced by calcium alone in the absence of ACTH or dibutyryl cyclic AMP, while it was not produced by ACTH alone without calcium. 11-OHCS production by ACTH was decreased in the high concentration of calcium (10.16 mM, 12.70 mM). Cycloheximide partially blocked an increase in 11-OHCS synthesis induced by calcium. These data suggest that adenyl cyclase of human adrenocortical cells may be stimulated by calcium alone, supporting the notion that calcium is a second messenger. The ratio of 11-OHCS production by calcium alone to that by dibutyryl cyclic AMP was higher in adenoma cells than in normal cells. This may account for the character of autonomic steroid production in adrenocortical adenoma cells.     

Persistence of fetal zone function in the infant rhesus monkey adrenal gland

Plasma dehydroepiandrosterone sulfate (DHAS) concentrations increase markedly in the rhesus monkey fetus at the end of gestation. A further increase occurs in the infant. To determine whether the changes in plasma concentration between the fetus and infant represent maintenance of DHAS production by the infant adrenal gland, we measured the t1/2, distribution volume (VD), MCR, and production rate of DHAS in the late gestation rhesus monkey fetus (129-155 days gestation; term is 165 days) and infant (14-42 days of age). A single bolus dose of [3H]DHAS was injected into five fetuses and four infants, and blood samples were collected serially from 5 min to 24 h after the injection. The amount of [3H]DHAS in the circulation was measured after solvolysis, extraction, and Celite chromatography. The concentration of DHAS in each sample was measured by RIA. DHAS was cleared significantly more rapidly in the fetus than in the infant [MCR in fetus, 2.4 +/- 0.4 (+/- SE); MCR in infant, 0.6 +/- 0.2 liters day-1 kg-1]. The t1/2 of DHAS was shorter in the fetus than in the infant (1.0 +/- 0.1 vs. 3.3 +/- 0.7 h). Absolute VD values were larger in the fetus than in the infant (231 +/- 29 and 143.8 +/- 11.6 ml kg-1); however, they were similar when the fetal VD was calculated including placental weight as a component of fetal weight. The production rate of DHAS, calculated as the product of MCR and integrated plasma DHAS concentration for the duration of the experiment, was not significantly different between the fetus and the infant (1.0 +/- 0.2 and 3.3 +/- 1.2 mg kg-1 day-1) in spite of the marked differences in plasma DHAS concentrations (445.8 +/- 103.8 ng ml-1 in the fetus and 5165 +/- 1296 ng ml-1 in the infant). These results indicate that the adrenal of the infant rhesus monkey continues to secrete DHAS at a rate at least as high as that in the late gestation fetus. Since the infant maintains DHAS production similar to that of the fetus in the absence of the placenta, a corollary of these studies is that the elevated DHAS secretion in the rhesus infant is independent of the placenta or the hormonal milieu of pregnancy. The maintenance of a functional fetal zone in the adrenal gland makes the rhesus infant a suitable model to use in studying the regulation of DHAS secretion and fetal zone morphology.     

Angiotensin effects on calcium and steroidogenesis in adrenal glomerulosa cells

We investigated the role of cellular calcium pools in angiotensin II-stimulated aldosterone synthesis in bovine adrenal glomerulosa cells. Angiotensin II decreased the size of the exchangeable cell calcium pool by 34%, consistent with previous observations that angiotensin II causes decreased uptake of 45Ca+2 into cells and increased efflux of 45Ca+2 from preloaded cells. Atomic absorption spectroscopy showed that angiotension II caused a decrease of 21% in total cellular calcium. Angiotensin II caused efflux of 45Ca+2 in the presence of EGTA and retarded uptake of 45Ca+2 when choline was substituted for sodium, suggesting that hormone effects on calcium pools do not involve influx of trigger calcium or sodium. Cells incubated in calcium-free buffer and 0.1 mM or 0.5 mM EGTA synthesized reduced (but still significant) amounts of the steroid in response to hormone. Cells incubated in increasing concentrations of extracellular calcium contained increasing amounts of intracellular calcium and synthesized increasing amounts of aldosterone in response to angiotensin II. These results point to the participation of intracellular calcium pools in angiotensin II-stimulated steroidogenesis and the importance of extracellular calcium in maintaining these pools.     

Midkine, a heparin-binding growth factor, selectively stimulates proliferation of definitive zone cells of the human fetal adrenal gland

CONTEXT: In the human fetal adrenal gland (HFA), the inner fetal zone (FZ) secretes dehydroepiandrosterone sulfate. The function of the outer definitive zone (DZ) is less clear; however, the DZ phenotype is that of a reservoir of progenitor cells, many of which are mitotically active. Midkine (MK) is a heparin-binding growth factor with various bioactivities. OBJECTIVE: The objective of this study was to investigate expression, proliferative effects, and ACTH regulation of MK in the HFA. DESIGN AND SETTING: RNA, cryosections, and primary cell cultures from HFAs (14-24 wk) and adult adrenal RNA were used. MAIN OUTCOME MEASURES: The main outcome measures were MK mRNA levels (measured by quantitative real-time RT-PCR); MK localization (measured by immunostaining); MK proliferative effects and mechanism (measured by proliferation assays, flow cytometry, pharmacological interventions); and ACTH regulation (measured by quantitative real-time RT-PCR). RESULTS: HFA MK mRNA levels were 4-fold higher than in adult adrenals (P < 0.05) and were comparable to levels in fetal and adult brains (positive controls). MK immunoreactivity was abundant throughout the HFA. Exogenous MK caused proliferation of isolated DZ cells but not FZ cells (72 h, P < 0.05). In contrast, basic fibroblast growth factor induced proliferation of cells from both zones. Pharmacological interventions indicated that MK-induced DZ cell proliferation may be mediated by phosphatidylinositol 3-kinase, MAPK kinase, and Src family kinases. ACTH (1 nm) increased MK mRNA by 3.5-fold (48 h, P < 0.01) in isolated FZ cells. CONCLUSIONS: MK likely plays a key role in HFA development. MK's selective in vitro mitotic effects on DZ cells may provide insights into the mechanism underlying the distinct in vivo differences in mitotic activity between the DZ and FZ.     

Glutamate receptors and the regulation of steroidogenesis in the human adrenal gland: The metabotropic pathway

Background

l-glutamate is a major excitatory neurotransmitter in the mammalian brain. Glutamate receptors have been reported in the rat adrenal cortex and in human aldosterone-producing adenomas (APA). However, details regarding the expression levels and functions of these receptors in human adrenocortical tissues remain unknown.

Methods

The mRNA levels of glutamate receptors were evaluated by qPCR in: 12 normal adrenal cortex (NAC), 11 APA, and 12 cortisol-producing adenoma (CPA) tissues. Protein localization was evaluated by immunohistochemistry for 15 NAC, 5 idiopathic hyperaldosteronism cases, 15 APA and 15 CPA. H295R cells were treated with angiotensin-II or forskolin alone or combined with the GRM2/3 agonist LY354740.

Results

The level of GRM3 mRNA was higher in APA than in CPA (P = 0.0086) or NAC (P = 0.0022). GRM1, IGLUR2, and IGLUR3 were also detected in adrenocortical tissues. When added to angiotensin-II/forskolin treatments, LY354740 decreased aldosterone and cortisol production in H295R cells.

Conclusions

GRM3 is considered to regulate steroidogenesis in adrenocortical tissues.     

The control of steroidogenesis by human fetal adrenal cells in tissue culture. I. Responses to adrenocorticotropin

A technique of monolayer tissue culture of human fetal adrenal cells was developed in order to study steroidogenic responses to factors such as ACTH. The daily production of 12 steroids [pregnenolone, 17-hydroxy pregnenolone, dehydroepiandrosterone (DHA), DHA sulfate, progesterone, 17-hydroxyprogesterone, androstenedione, testosterone, corticosterone, 11-desoxycortisol, cortisol, and aldosterone) was measured by RIA. Initially, fresh fetal adrenal cells produced DHA, DHA sulfate, 17-hydroxypregnenolone, and small amounts of cortisol, but in the absence of ACTH, the production of all steroids declined during culture to low levels. The addition of physiological amounts (1-10(4) pg/ml) of either alpha ACTH-1(1-24) or alpha ACTH-(1-39) or coculture with fetal pituitary cells elicited a progressive rise in steroid production during the first 4-6 days of incubation. The lowest ACTH doses elicited a proportionately greater adrenal androgen response (as reflected in the DHA to cortisol ratio), but with increasing ACTH dosage, there was greater stimulation of cortisol production, which equalled or exceeded that of DHA. The data demonstrate that fetal adrenal cells may be maintained in short term culture and can respond to physiological amounts of ACTH. The progressive increase in the production of cortisol and other delta 4, 3-ketosteroids in vitro suggests that the characteristic fetal pattern of steroidogenesis may result from the interaction of ACTH with some circulating inhibitor of adrenal 3 beta-hydroxysteroid dehydrogenase.     

Corticotropin-releasing hormone stimulates steroidogenesis in cultured human adrenal cells

The effects of corticotropin releasing hormone (CRH) on steroid production by cultures of human fetal adrenal cells was investigated. We found that CRH, at concentrations that have been reported to exist in human fetal serum, stimulated dehydroepiandrosterone sulfate (DS) and cortisol production by cultured fetal zone and neocortical zone cells. A dose-dependent increase in secretion of both steroids was noted, with the cortisol pathway being preferentially enhanced by CRH at high concentrations. Pretreatment of adrenal cells for 3 days made them more responsive to ACTH stimulation and such effects were dose-dependent also. Inclusion of the antagonist, alpha-helical CRH (9-41) blocked CRH-induced stimulation of DS and cortisol over a broad dose range and also interfered with the augmentation of cortisol secretion noted after ACTH in CRH treated cells. CRH had no effects on adrenal cell proliferation or total cell protein. These studies are suggestive that CRH, either of systemic origin or else produced within the adrenal itself, has the potential to be a modulator of adrenal steroid production in the human.