Properties of rat adrenal zona reticularis cells: production and stimulation of certain steroids.

The outputs of corticosterone, deoxycorticosterone and androstenedione from dispersed, purified rat adrenal zona reticularis and zona fasciculata cells have been measured by radioimmunoassay. Preferential production of deoxycorticosterone by zona reticularis cells was demonstrated by their higher basal deoxycorticosterone : corticosterone ratio when compared with zona fasciculata cells. Adrencorticotrophin (ACTH) stimulated corticosterone output by all cell pools prepared by unit gravity (1 g) sedimentation, zona fasciculata cells being stimulated 130-fold compared with 20-fold for the zona reticularis cells in relation to their basal corticosterone output. In every cell pool, ACTH stimulated the output corticosterone more than it stimulated the output of deoxycorticosterone. In parallel cell preparations, it was shown that ACTH increased the conversion of tracer amounts of radioactive deoxycorticosterone to corticosterone and decreased the conversion of radioactive corticosterone to 11-dehydrocorticosterone. Adrenocorticotrophin did not increase the conversion of radioactive deoxycorticosterone to total 11-oxygenated steroids (corticosterone + 11-dehydrocorticosterone). It is unlikely therefore that ACTH stimulates 11 beta-hydroxylation. Data indicate that the ratio of deoxycorticosterone to total 11-oxygenated steroids (corticosterone + 11-dehydrocorticosterone) is characteristic for each cell type, and that this ratio will be relatively independent of ACTH stimulation or the amount of pregnenolone substrate available. Basal androstenedione outputs were similar for both types of cell, and ACTH stimulation was very small, being slightly greater for zona fasciculata than for zona reticularis cells. The contribution of the zona reticularis cells to the basal output of any steroid by the cells of the inner two zones of the adrenal cortex of the rat was relatively small (20% for deoxycorticosterone and 10% for corticosterone) and was even less after stimulation by ACTH. Unless a specific stimulus can be found, therefore, a significant role for the zona reticularis cannot yet be established.     

Stimulation of steroidogenesis by forskolin in rat adrenal zona glomerulosa cell preparations.

The actions of forskolin have been investigated to determine to what extent its effects on steroidogenesis in rat adrenal preparations are dependent on activation of adenylate cyclase. In zona glomerulosa preparations, stimulation of both aldosterone and corticosterone production was obtained at concentrations of forskolin between 1 and 10 mumol/l. The effects of 10 mumol forskolin/l were additive with those of low doses (1 pmol/l) of corticotrophin (ACTH), but not with those of high doses (1 nmol/l) of ACTH. In contrast, in zona fasciculata/reticularis cells, doses of forskolin up to 10 mumol/l produced no significant stimulation of corticosterone production either alone or in the presence of ACTH (1 pmol/l and 1 nmol/l). The response to 1 nmol ACTH/l was attenuated in the presence of forskolin (10 mumol/l) in both zona glomerulosa and zona fasciculata/reticularis cell preparations. Cyclic AMP production increased progressively with dose up to 100 mumol forskolin/l in zona glomerulosa cells, whereas corticosterone production was maximal between 10 and 30 mumol forskolin/l and decreased at 100 mumol forskolin/l. In zona fasciculata/reticularis cells, cyclic AMP production was also increased by forskolin (1 and 10 mumol/l). The stimulation of zona glomerulosa steroidogenesis by forskolin (1-10 mumol/l) and ACTH (1-100 pmol/l) were both reduced by the adenylate cyclase inhibitor, N6-phenylisopropyladenosine (100 mumol/l). The calcium channel inhibitor, nifedipine, only reduced the steroidogenic response to forskolin (3 mumol/l) at doses of 300 mumol/l whereas the response to 8.4 mmol K+/l was inhibited at 10 mumol nifedipine/l.(ABSTRACT TRUNCATED AT 250 WORDS)     

Lipoxygenase products as common intermediates in cyclic AMP-dependent and -independent adrenal steroidogenesis in rats

Aldosterone secretion from adrenal glomerulosa cells can be stimulated by angiotensin II (AII), extracellular potassium and ACTH. Mitochondria from these cells respond to intracellular factors generated by AII (cyclic AMP (cAMP)-independent steroidogenesis) and ACTH (cAMP-dependent steroidogenesis), suggesting that the two-signal-transduction mechanisms are linked by a common intermediate. We have evaluated this hypothesis by stimulating mitochondria from the unstimulated zona glomerulosa with a subcellular post-mitochondrial fraction (PMF) obtained from the zona glomerulosa after stimulation with AII or from the fasciculata gland after stimulation with ACTH; the subcellular fractions were also tested on mitochondria from fasciculata cells. PMFs obtained after incubation of adrenal zona glomerulosa with or without AII (0.1 microM) or ACTH (0.1 nM) were able to increase net progesterone synthesis 4.5-fold in mitochondria isolated from unstimulated rat zona glomerulosa. AII-pretreated PMFs from the zona glomerulosa also stimulated steroidogenesis by mitochondria from zona fasciculata cells. Separate experiments showed that inhibitors of arachidonic acid release and metabolism (bromophenacyl bromide, nordihydroguaiaretic acid, caffeic acid or esculetin) blocked corticosterone production in fasciculata cells stimulated with ACTH, suggesting that arachidonic acid could be the common intermediate in the actions of AII and ACTH on steroid synthesis. Evidence to support this concept was obtained from experiments in which the formation of an activated PMF by treatment of zona fasciculata with ACTH was blocked by the presence of the same inhibitors. Moreover, the inhibitory effects of these substances on PMF activation by ACTH were overcome by exogenous arachidonic acid and, in addition, arachidonic acid release was stimulated by ACTH.(ABSTRACT TRUNCATED AT 250 WORDS)     

Properties of rat adrenal zona reticularis cells: preparation by gravitational sedimentation.

An enriched fraction of zona reticularis cells was obtained by unit gravity sedimentation of decapsulated adrenal glands from female rats. From light microscopic and ultrastructural studies of the whole gland and the isolated cell fractions, the zona reticularis cells of the adrenal gland can be classified mainly on the bases of size, position and mitochondrial morphology. This cell population consists of two types of cell, the 'true' zoma reticularis cells (Type I, modal diameter 9 micrometer), which usually constitute 90% of the isolated reticularis fraction and 80% of the intact reticularis tissue, and cells (Type II, modal diameter 13 micrometer) with fasciculata-like properties (rich in lipid and spherical mitochondria with vesicular cristae). Staining of the cell preparation for 3beta-hydroxysteroid dehydrogenase activity also demonstrates the existence of two types of cell in the zona reticularis. The zona reticularis cell fraction, like the zona fasciculata cell fraction, was capable of producing the subsequent steroids from radioactive pregnenolone: corticosterone, deoxycorticosterone, 18-hydroxydeoxycorticosterone, 11-dehydrocorticosterone, progesterone and androstenedione. However, the pattern of steroid production differed markedly between the zona reticularis and zona fasciculata cells, particularly with respect to the production of deoxycorticosterone and corticosterone (and its correlated steroids, 11-dehydrocorticosterone and 18-hydroxydeoxycorticosterone). When R (the ratio of deoxycorticosterone : corticosterone plus 11-dehydrocorticosterone) for the purest preparation of reticularis cells was compared with R for the corresponding preparation of fasciculata cells, the normalized ratio was found to be 6.4, 16.4 and 20.1 in three experiments. The pattern of production of androstenedione per cell was similar in the reticularis and fasciculata cell fractions. The exact mechanism for the altered pattern of steroid metabolism remains to be elucidated. However, these results establish that the corticosteroids produced by the cells of the zona reticularis may be quantitatively, if not qualitatively, different from those produced by the zona fasciculata cells.     

Biosynthetic ad morphological evidence for inhibition of aldosterone production following administration of ACTH to sheep

The effect of ACTH administration for 1-5 days on the morphology and steroidogenic capability of sheep adrenal tissue has been examined. During this period of treatment there was a gradual decline in the in vitro conversion of 3H-labelled precursors to products of solely zona glomerulosa origin (aldosterone and 18-hydroxycorticosterone) while conversion to products of zona fasciculata origin (17-hydroxyprogesterone, 11-deoxycortisol and cortisol) was stimulated throughout. Conversion to DOC, 18-hydroxydeoxycorticosterone and corticosterone (steroids produced by both the zona glomerulosa and the zona fasciculata) declined after initial stimulation. Within 2--3 days of the commencement of treatment, the zona glomerulosa showed a progressive decrease in cell number associated with disruption of cords and cell separation. Ultrastructurally, it was found that typical zona glomerulosa cells had almost disappeared. The majority of residual cells in this area had a structure intermediate between zona glomerulosa and zona fasciculata cells. The similarity in time-course of the alterations in both the morphological and biosynthetic characteristics suggests that the decline in aldosterone output caused by ACTH administration to sheep results from the loss of adrenal zona glomerulosa cells, predominantly due to selective cellular degeneration.     

Effects of prolonged cyclosporine-A treatment on the morphology and function of rat adrenal cortex

The effects of prolonged (30 day) treatment with daily therapeutical doses of cyclosporine A (CSA) (20 mg/kg) on the function and morphology of adrenal cortex were studied in adult male rats. CSA-treated animals developed a notable hypertension, along with a striking rise in PRA, which was not coupled with significant changes in the plasma concentrations of aldosterone and corticosterone (hyperreninemic hypoaldosteronism). Morphometry showed that zona glomerulosa (ZG) and zona fasciculata, and their parenchymal cells were atrophic. Isolated capsular (ZG) and inner (zona fasciculata/reticularis) cells displayed reduced basal and stimulated secretory responses. However, while the response of ZG cells to angiotensin II was almost completely suppressed (96%), basal steroid secretion of isolated cells, as well as the aldosterone and corticosterone response of ZG cells to potassium and ACTH, and corticosterone production of inner cells in response to ACTH were decreased by only about 30-40%. The hypothesis is advanced that CSA exerts a dual effect on rat adrenal cortex: 1) a general inhibitory effect on the growth and steroidogenic capacity of adrenocortical cells, which manifests itself only after very prolonged treatment and may be caused by an impairment of protein synthesis; and 2) an acute effect involving the specific blockade of the angiotensin-II-induced stimulation of the secretory activity of ZG cells.     

Effects of alpha-melanocyte-stimulating hormone on the cyclic AMP and phospholipid metabolism of rat adrenocortical cells

Results on the effects of peptides on the phospholipid metabolism and steroid and cyclic AMP (cAMP) outputs of rat adrenal capsular cells (96% zona glomerulosa, 4% zona fasciculata) were obtained in a series of three batch experiments. Their significance was examined by analysis of variance. Incorporation of [32P] into phosphatidylcholine, phosphatidic acid and phosphatidylinositol was measured. Production of [3H]inositol-1 monophosphate, inositol-1,4 bisphosphate and inositol-1,4,5 tris-phosphate was estimated after prelabelling with [3H]inositol followed by 1 min incubation with a steroidogenic stimulus. Angiotensin II (0.25 nmol/l to 0.25 mumol/l) highly significantly (P less than 0.01) stimulated aldosterone and corticosterone outputs, [32P] incorporation into phosphatidic acid and phosphatidylinositol (but not into phosphatidylcholine) and the production of the three [3H]inositol phosphates. Aldosterone and corticosterone outputs were stimulated by alpha-MSH (above 0.1 nmol/l). However, incorporation of [32P] was not significantly increased until 10 mumol alpha-MSH/l but, unlike with angiotensin II, incorporation into phosphatidylcholine was also then stimulated. Also, the production of the inositol phosphates was not increased significantly (P greater than 0.05) by any dose of alpha-MSH (10 nmol/l, 1 mumol/l and 0.1 mmol/l) used. Therefore, it can be concluded that alpha-MSH does not stimulate phospholipase C in rat zona glomerulosa cells. In further experiments, it was also found that there were significant increases in cAMP as well as in steroid outputs above 1 nmol alpha MSH/l (highly significant above 10 nmol alpha-MSH/l). There were plateaux of the outputs of both steroids and cAMP from 0.1 to 1 mumol alpha-MSH/l. However, there were further increases in steroid and cAMP outputs of the capsular cells at higher doses. Concomitant results on the stimulation of corticosterone output by zona fasciculata-reticularis cells indicate that this additional increase was mostly due to the stimulation of the contaminating zona fasciculata cells. It was also confirmed that alpha-MSH preferentially stimulates steroidogenesis by the zona glomerulosa. However, under our conditions, alpha-MSH highly significantly increased the output of cAMP by both zona fasciculata and glomerulosa cells.     

The role of endothelin in the control of adrenocortical function: stimulation of endothelin release by ACTH and the effects of endothelin-1 and endothelin-3 on steroidogenesis in rat and human adrenocortical cells.

The rate of blood flow through the intact adrenal gland is closely linked to steroid hormone secretion, and although the mechanism involved is unknown, it is thought to involve secretory products of the vascular endothelium. In dispersed cell preparations, endothelin-1 and -3 both caused a dose-dependent and highly sensitive increase in steroid secretion by zona glomerulosa and zona fasciculata cells of the rat and human adrenal cortex. In addition, when the perfused rat adrenal was stimulated with ACTH, significant increases in steroid secretion and perfusion medium flow rate were accompanied by significantly increased secretion of immunoreactive endothelin into the adrenal vein. It is proposed that endothelin has a role in mediating the adrenocortical response to ACTH stimulation.     

Lack of effect of angiotensin on levels of cyclic AMP in isolated adrenal zona glomerulosa cells from the rat

The effects of pure [Asp1,Val5]- and [Asn1,Val5]-angiotensin II and also [des-Asp1,Ile5]-angiotensin II (angiotensin III) on cyclic AMP and steroid outputs by dispersed rat capsular cells, comprising 95% zona glomerulosa and 5% zona fasciculata cells, have been studied. The results showed that [Asp1, Val5]-and [Asn1, VAl5]-angiotensin II, at doses between 2.5 X 10(-11) and 2 X 10(-4) mol/l, which produced typical increases in steroidogenesis, failed to increase output of cyclic AMP. This lack of effect was observed whether the nucleotide was measured by radioimmunoassay or by adrenal binding protein and under the same conditions in which 8.4 mM-K+ consistently increased the output of cyclic AMP. Instead the results showed a small but significant decrease in cyclic AMP output with angiotensin II. Similar results were obtained with incubations for 60 rather than 120 min and with medium containing a concentration of 5 or 40 g bovine serum albumin/l. Although the levels of cyclic AMP were generally higher in the presence of the phosphodiesterase inhibitor, 3-isobutyl-1-methylxanthine, the same decrease relative to basal outputs was observed with angiotensin II which increased steroidogenesis. Angiotensin III also failed to increase output of cyclic AMP at doses (2.5 X 10(-9) to 2.5 X 10(-6) mol/l) which produced increases in steroid output equivalent to those with angiotensin II. These results indicate that angiotensin II and III can act through a cyclic AMP-independent mechanism.     

Catecholamine stimulation of cortisol secretion by 3-day primary cultures of purified zona fasciculata/reticularis cells isolated from bovine adrenal cortex

Primary cultures of zona fasciculata/reticularis cells derived from bovine adrenal cortex secreted cortisol and corticosterone in response to isoprenaline, noradrenaline and adrenaline on the third day of culture. The potency order was isoprenaline greater than noradrenaline, adrenaline with an ED50 for all three agonists within the range 1-5 x 10(-8) M. A dose-dependent increase in medium content of cyclic AMP was also observed. Secretion of cortisol in response to these catecholamines was specifically blocked by propranolol but unaffected by phentolamine. The beta-agonist effect on cortisol secretion was specifically and progressively reduced, in a time- and dose-dependent manner, by pre-incubation of the cells with adrenaline.     

Adrenocorticotropin increases interleukin-6 release from rat adrenal zona glomerulosa cells.

Interleukin-6 (IL-6) is produced by adrenal zona glomerulosa cells; its release is stimulated by several secretagogues, including IL-1 alpha, IL-1 beta, and angiotensin II. The present study reports that ACTH (0.1-100 nM) increased the release of IL-6 from primary cultures of rat adrenal cells in a concentration-dependent manner. This increase was accompanied by an increase in cAMP content in cell extracts and in the incubation medium. The dynamics of IL-6 release from the adrenal cells also were investigated using a perifusion system; approximately 50 min were required for the effects of IL-1 alpha, IL-1 beta, and ACTH on IL-6 release to become apparent. Following withdrawal of the secretagogues, IL-6 release returned to basal levels within 90-120 min. In some experiments, the adrenal zona glomerulosa was separated from the zona fasciculata/reticularis to determine the origin of secretagogue-stimulated IL-6 release. PGE2 and forskolin increased IL-6 release from both cell types, but maximal release from zona glomerulosa cells was more than 10-fold greater than that from zona fasciculata/reticularis cells. ACTH (0.1-100 nM) increased intracellular cAMP levels in cells from both cell types in a concentration-dependent manner, but increased IL-6 release only from zona glomerulosa cells. Dexamethasone, an inhibitor of IL-6 production in several tissues, had no effect on either basal or stimulated IL-6 production in the adrenal. Because IL-1 beta is produced primarily by tissues of the immune system, whereas ACTH is a classical endocrine hormone, we investigated the effect of interaction of these proteins on IL-6 release from the adrenal. Together, IL-1 beta and ACTH stimulation of IL-6 release was greater than the sum of the effects of each substance separately; however, IL-1 beta did not potentiate the effect of ACTH on cAMP levels. Similarly, IL-1 beta potentiated IL-6 release stimulated by forskolin and (Bu)2cAMP. Thus, the adrenal may be an important convergence point between the immune and endocrine systems, and because IL-6 release is regulated by IL-1 alpha, IL-1 beta, ACTH, and angiotensin II, and this cytokine stimulates corticosterone release, IL-6 may play an important paracrine role in integrating the signals derived from these systems.     

Inhibition of replication of normal adrenocortical cells in culture by adrenocorticotropin.

Adrenocorticotropic hormone (ACTH) inhibited [3H]thymidine incorporation in normal adrenocortical cells of adult rats in culture, with a concomitant increase in corticosterone production and a characteristic retraction of cells. Both dibutyryl cyclic AMP and an analog of ACTH, which produces virtually no cyclic AMP, inhibited DNA synthesis and stimulated steroid production. ACTH inhibited the proliferation of adrenocortical cells obtained from suckling rats as well as the cells obtained from the capsular tissue of adult rat adrenal glands, whereas insulin caused a stimulation of DNA synthesis. These results suggest that the major role of ACTH is to induce the transformation of the undifferentiated cells of the adrenal gland into functional fasciculata cells and that the proliferation of adrenocortical cells may be under control of factors other than ACTH.     

Steroidogenesis activator polypeptide (SAP) in the guinea pig adrenal cortex

Steroidogenesis activator polypeptide (SAP), a cytosolic stimulator of cholesterol side-chain cleavage (cholesterol SCC) previously characterized in the rat, was isolated from guinea pig adrenal cortex. This factor exhibited behavior on reverse-phase high-performance liquid chromatography (HPLC) that was indistinguishable from authentic SAP and crossreacted fully in a SAP radioimmunoassay. In dexamethasone-suppressed guinea pigs neither the concentrations of immunoreactive adrenal SAP nor the levels of cholesterol SCC activity were significantly different between the outer zones (zonae glomerulosa and fasciculata) and the inner zone (zona reticularis). However, at 10 min after treatment of dexamethasone-suppressed animals with ACTH1-24, the outer zone content of SAP was increased 42-fold over unstimulated controls whereas inner zone SAP was elevated only 4-fold. At the same time, cholesterol SCC activity was increased 2-fold in the outer zones but unchanged in the inner zone. In addition to SAP itself, a crossreacting 82 kDa protein (p82)--similar to the putative SAP precursor identified in the rat--was detected on two-dimensional immunoblots of guinea pig whole adrenal homogenate. There were no significant differences in the protein concentrations of p82 or of cytochrome P-450scc between zones, either with or without ACTH treatment. We conclude that the widely reported contrast in corticosteroidogenic potential between the zona fasciculata and the zona reticularis of the guinea pig may reflect a differential capacity to generate SAP, and thus activate cholesterol SCC, in response to ACTH.     

The actions of N-terminal fragments of corticotrophin on steroidogenesis in dispersed rat adrenal cells in vitro

The finding that the rat adrenal zona glomerulosa cell shows specific sensitivity to stimulation by alpha-MSH and related peptides has been confirmed both in vivo and in vitro, raising the possibility that alpha-MSH may have a physiological role in the control of glomerulosa function and aldosterone secretion. To define more closely the structural features which confer teh specificity of the glomerulosa response, other ACTH derived peptides have been tested for their specificity of actions on rat adrenal cells in vitro. The peptides tested were ACTH(5-24), ACTH(1-12), ACTH(1-14), ACTH(1-15), ACTH(1-16) and ACTH(1-17). Their actions were compared with those of alpha-MSH and ACTH(1-24). All of the ACTH-derived peptides stimulated glomerulosa corticosterone production with sensitivities similar to that of alpha-MSH; minimum effective concentration was 10 nmol/l. Also, like alpha-MSH, the shorter ACTH peptides stimulated aldosterone production only relatively weakly in these cells from animals on normal sodium intake. Only ACTH(5-24), ACTH(1-16) and ACTH(1-17) stimulated fasciculata/reticularis cells at concentrations up to 1 mumol/1. The actions of all of the shorter peptides were thus unlike those of ACTH(1-24) which stimulates both cell types with approximately equal sensitivity, and which furthermore strongly stimulates aldosterone production. The data suggest that the 18-24 region of the ACTH molecule contains the signal for a fasciculata/reticularis response, and the region 1-13 that for glomerulosa specificity. They confirm the view that, in the rat, alpha-MSH itself may be the specific pituitary glomerulosa-stimulating agent which much experimental work has predicted. They also indicate that synthetic ACTH(1-17) analogues should be used with caution.     

Vasoactive intestinal peptide stimulates adrenal aldosterone and corticosterone secretion

Vasoactive intestinal peptide (VIP)-immunoreactive nerve fibers have been demonstrated in the rat adrenal cortex in close association with zona glomerulosa cells, suggesting neural regulation of adrenocortical cell function (5). The present studies were undertaken to study the possible role of VIP in the regulation of steroid hormone secretion from the outer zones of the normal rat adrenal cortex. Capsule-glomerulosa preparations, consisting of the capsule, zona glomerulosa, and a small but variable portion of the zona fasciculata, were perifused in vitro. To assess the secretory responsiveness of the capsule-glomerulosa preparation, aldosterone and corticosterone release were measured after stimulation with ACTH and angiotensin II. ACTH (10(-12)-10(-8) M) stimulated dose-dependent increases in aldosterone secretion (1.9- to 36.9-fold increases over basal values) and corticosterone secretion (1.4- to 14.0-fold increases over basal values). Angiotensin II (10(-8)-10(-5) M) stimulated dose-dependent increases in aldosterone secretion (1.6- to 8.8-fold increases over basal values). VIP (10(-6)-10(-4) M) stimulated dose-dependent increases in both aldosterone (1.7- to 41.0-fold) and corticosterone secretion (1.8- to 5.3-fold). However, glucagon and (N-Ac-Tyr1-D-Phe2)GRF-(1-29)NH2, peptides structurally related to VIP, stimulated neither aldosterone nor corticosterone secretion, indicating that VIP effects are likely to be specific for this peptide. It is noteworthy that in this preparation, the stimulation of corticosteroid secretion by VIP at 10(-5) and 10(-4) M was comparable to those by 10(-6) M angiotensin II and 10(-9) M ACTH, respectively. These results support the hypothesis that the VIP innervation of the adrenal cortex may contribute directly to the regulation of adrenal steroidogenesis.     

Partial deficiency of adrenal 11-hydroxylase. A possible cause of primary hypertension

Results of supraphysiological adrenocorticotropic hormone (ACTH) stimulation of biosynthetic pathways of adrenal zona fasciculata indicate that a deficiency of 11-hydroxylase exists in patients with essential hypertension. The deficiency is suggested by the much greater stimulus of synthesis of deoxycorticosterone (DOC) and deoxycortisol in hypertensive subjects than in controls (p less than 0.001). No significant difference in the synthesis of cortisol, corticosterone, progesterone, 17-hydroxyprogesterone (17-OHP), and delta-4-androstenedione (D4) was observed between the two groups. The ratios for synthesis of DOC and corticosterone and for deoxycortisol and cortisol found in hypertensive patients were significantly higher than those found in controls (p less than 0.001); no significant difference was observed in the synthesis of 17-OHP and progesterone. The synthesis of DOC and deoxycortisol was not significantly correlated with either blood pressure or plasma renin activity. Plasma renin activity was significantly lower in hypertensive subjects than in normotensive subjects (p less than 0.0001), while no difference was found in aldosterone secretion between the two groups. The 11-hydroxylase deficiency in the adrenal zona fasciculata may be one of the genetic factors causing hypertension together with environmental factors (particularly salt intake and work-related stress). The investigation performed in our study may be useful for the evaluation of adrenal zona fasciculata enzymatic activities during the study of hypertensive patients.     

Corticotropin-induced desensitization: steroidogenic and cyclic AMP responses in superfused adrenocortical cells

The characteristics of the sensitization and desensitization of superfused, rat dissociated adrenal fasciculata cells were examined. The dynamic output of steroids and cyclic AMP was determined following pulsed treatment with various agonists. Repeated doses of identical small amounts of ACTH or ACTH gave gradually increasing responses which were maximal after 3-4 injections, but then desensitized the adrenal cells. An initial dose of 2.5 X 10(-11) moles of ACTH, itself insufficient to stimulate steroidogenesis in this system, had the effect of priming the cells, which showed an enhanced initial response and achieved maximum responsiveness on the second injection of 4 X 10(-13) moles ACTH. Thereafter, although the cells exhibited a diminishing steroid output, a dose at the end of the experiment of 8 X 10(-12) moles ACTH restored the maximum responsiveness, and demonstrated that cell loss or death could not account for the desensitization effect. Only a sensitization of the cells was observed following repeated doses of 5 X 10(-6) moles cyclic AMP. Since no desensitization effect was discernible for this agonist, it was concluded that in this system the lesion giving rise to the desensitization effect occurred prior to the adenylate cyclase catalytic unit for the generation of cyclic AMP within the cell and the receptor-nucleotide-regulatory protein complex is thus implicated in the desensitization mechanism for adrenal steroidogenesis. The studies demonstrate the exquisite sensitivity of adrenal cells to the desensitizing effects of even brief intermittent pulses of ACTH.     

Studies on the dynamics of adrenocortical responses to ACTH in the rat

The transient dynamics of plasma ACTH, adrenal cyclic AMP, adrenal corticosterone and plasma corticosterone were evaluated in male Sprague-Dawley rats, whose endogenous release of ACTH had been blocked by dexamethasone: (1) 40 min after single injections of ACTH ranging from 2 to 300 ng ACTH/100 g B.W., i.V.; (2) at time intervals after single injections of 9, 37 and 300 ng ACTH/100 g B.W.; (3) during and after prolonged infusion of 4 ng ACTH/min/100 g B.W. Plasma corticosterone concentration was still at a nearly maximal level 40 min after the injection of ACTH at a dose level for which the adrenal cyclic AMP content had fallen back to a value that was scarcely above the control one; a narrow window, defined by a 2-fold increase in the dose of ACTH, represents the transition between a minimal and a maximal adrenal cyclic AMP content. The adrenal cyclic AMP transient response after injection of graded doses of ACTH increased rapidly to a peak whose amplitude was dose-dependent; the duration of the cyclic nucleotide response, however, appeared to be independent of the ACTH dose level. The adrenal corticosterone content rose rapidly, and the eventual fall was delayed by increasing doses of ACTH. The time course of the early plasma corticosterone concentrations exhibited a similar rate of increase after any dose of ACTH; in any case, a steady state whose duration was dose-dependent was eventually reached and the ensuing fall therefrom occurred at a time when the adrenal cyclic AMP had fallen to very low levels. The adrenal cyclic AMP content showed an overshoot at a time when ACTH and corticosterone had reached a constant steady state, during a prolonged infusion of ACTH; adrenal cyclic AMP stabilized during the later phase of the infusion. After removal of the infusion, plasma ACTH levels fell relatively slowly as compared with adrenal cyclic AMP, whereas corticosterone remained at a maximal level for at least 120 min.Our results, derived from experiments in vivo, support the recent proposal by Bristow et al. (1980), derived from studies in vitro, that ACTH can act via either of two types of receptor: binding to one receptor elicits steroidogenesis via cyclic AMP production whereas binding to the other receptor elicits steroidogenesis through some other mechanism.     

Gonadal luteinizing hormone receptors and adenylate cyclase: transfer of functional ovarian luteinizing hormone receptors to adrenal fasciculata cells.

Luteinized rat ovaries contain a high concentration of particulate luteinizing hormone (lutropin, LH) receptors and a small quantity of lipid-associated receptors that float in the 360,000 X g supernatant fraction of ovarian homogenates. During fractionation of Lubrol-solubilized LH receptors and adenylate cyclase [ATP pyrophosphate-lyase (cyclizing), EC 4.6.1.1] from the ovary and testis, LH receptors and adenylate cyclase were coincident on gel filtration, but could be resolved during ion-exchange chromatography of soluble ovarian preparations and were completely separated by lectin-affinity chromatography on Sepharose-concanavalin A. For further analysis of receptor-adenylate cyclase coupling, the lipid-rich fraction of ovarian luteal cells was used to transfer gonadal LH receptors to isolated adrenal fasciculata cells. The lipid vesicles obtained from ovarian homogenates by flotation at 360,000 X g contained 5--10% of the ovarian LH receptors and were devoid of adenylate cyclase activity. During incubation of lipid-associated receptors with dispersed rat fasciculata cells at 16 degrees C, progressive incorporation of LH binding sites into the adrenal cells was observed. When adrenal cells bearing heterotopic LH receptors were incubated with 1 nM human choriogonadotropin, cyclic AMP production was consistently stimulated, with an accompanying increase in corticosterone production. These results indicate that LH receptors exist as separate entities from adenylate cyclase in the gonadal cell membrane and can become functionally coupled to adenylate cyclase to evoke cyclic AMP production and steroidogenesis in the host adrenal cells to which they are transferred.