Adrenocortical responsiveness to the synthetic ACTH 1-17 analogue given at different circadian stages

The study concerns the adrenocortical glucocorticoid responsiveness to the ACTH 1-17 analogue given at different times of the day, namely near to the zenith and the nadir of the circadian curve of plasma cortisol. Two schedules of administration of the heptadecapeptide have been performed: a pulse i.v. injection of 4 microgram; b. i.m. injection of 100 microgram. Both the doses were given to the same subject in the morning and in the evening of different days. The chrono-sensitivity of the adrenal cortex to ACTH 1.17 analogue is well evident after pulse stimulation by a micro-dose of the heptadecapeptide; in fact the plasma cortisol increase from basal values is significantly higher in evening than in the morning (p less than 0.001). The cortico-stimulatory effect of the higher dose of ACTH 1.17 analogue lasts about 12 h. and then plasma and urinary glucocorticoids take the usual circadian pattern again.     

Opposite effect of adrenalectomy on rat brain prostaglandin synthesis in basal conditions and in response to insulin or 2-deoxy-glucose

In the present study we evaluated the role of endogenous glucocorticoids in the biosynthesis of prostaglandins (PG) in cortical brain tissue of the rat. Experiments were carried out under basal conditions and in response to insulin-induced hypoglycemia and 2-deoxyglucose (2-DG) induced-cytoglucopenia. In intact rats, following hypoglycemia and cytoglucopenia, the production of brain PG was decreased. These two stress stimuli also activated adrenocortical secretory responses, as manifested by an increase in circulating ACTH and corticosterone. Bilateral adrenalectomy did not modify the brain production of PG under basal conditions. In contrast, in adrenal-ectomized rats, the biosynthesis of brain cortical PG was markedly increased in response to insulin and 2-DG. These results suggest that adrenal hormones may be involved in the modulation of cortical PG production under stressful conditions.     

Effect of angiotensin II on secretion of adrenal androgens

To assess the effect of angiotensin II (A II) on the secretion of human adrenal androgens (AA), plasma dehydroepiandrosterone (DHEA), DHEA sulfate (DS) and delta 4-androstenedione (delta 4-A) were measured in eight normal men 60 and 120 min after stimulation of endogenous A II by a bolus injection of 40 mg frusemide, and the direct effect of A II on the secretion of adrenal androgens was examined in cultured human adrenocortical cells in the presence of a low concentration of ACTH. The administration of frusemide led to a significant increase in the plasma DHEA and DS concentration as well as plasma renin activity (PRA) and aldosterone concentration (PAC), but did not change plasma cortisol and delta 4-A. In the culture of human adrenocortical cells, 10(-9)-10(-5) M A II or 10(-13) M ACTH alone did not stimulate the secretion of DHEA, DS and delta 4-A, while 10(-7) and 10(-5) M A II in the presence of 10(-13) M ACTH caused a significant increase in DHEA and DS secretion with no change in delta 4-A. These results suggest that the activated renin-angiotensin system stimulates the secretion of adrenal androgens by a direct effect of A II on adrenal cortical cells.     

Studies on lipoprotein and adrenal steroidogenesis: I. Roles of low density lipoprotein- and high density lipoprotein-cholesterol in steroid production in cultured human adrenocortical cells

The roles of human low density lipoprotein (LDL)- cholesterol and high density lipoprotein (HDL)- cholesterol on adrenal steroidogenesis were investigated using cultured human adult and fetal adrenocortical cells and the findings were then compared to those obtained with bovine adrenocortical cells. The secretion of cortisol in both human and bovine adrenocortical cells was dose-dependently increased by the administration of LDL- or HDL-cholesterol in the presence of adrenocorticotropin (ACTH). LDL-cholesterol was utilized to a greater extent than HDL-cholesterol in both human and bovine adrenal steroidogenesis in the presence of ACTH. Exogenous lipoprotein-derived cholesterol was less utilized in human adrenal steroidogenesis than in bovine adrenal steroidogenesis, compared to the endogenous cholesterol. An increase in the secretion of cortisol and dehydroepi androsterone sulfate (DHEA-S) continued for the 5-day culture period, in the presence of lipoprotein cholesterol and ACTH in both human adult and fetal adrenocortical cells. The secretion of aldosterone increased on the first day of the culture period, then gradually decreased for the 5-day culture period in human adult adrenocortical cells, but not in human fetal adrenocortical cells in the presence of lipoprotein cholesterol and ACTH. These findings demonstrate that exogenous cholesterol utilized in the biosynthesis of steroids is mainly from LDL-cholesterol in both human adult and fetal adrenals and bovine adrenal and the proportion of cholesterol synthesized de novo is significantly larger in the human adult adrenal than in the bovine adrenal.     

Plasma immunoassayable ACTH levels during and after hydrocortisone infusion in patients with Cushing's disease.

The plasma ACTH responses to hydrocortisone infusion were compared in patients with Cushing's disease and primary adrenocortical insufficiency. In 4 patients with primary adrenocortical insufficiency, plasma ACTH levels were suppressed exponentially after administration of a relatively large dose of hydrocortisone (1.0 mg/kg/1.5 hr-3.0 mg/kg/2 hr). In patients with post-adrenalectomized Cushing's disease (4, bilateral; 1, unilateral), plasma ACTH suppression was delayed. Plasma ACTH levels, expressed as a percentage of the basal concentrations, were significantly less suppressed in patients with Cushing's disease than in patients with primary adrenocortical insufficiency 90 (p less than 0.05) and 120 (p less than 0.05) min after the beginning of infusion. When 0.5 mg/kg hydrocortisone was infused over a period of 1.5 hr, suppression was also delayed in Cushing's disease, and plasma ACTH levels were less suppressed in 4 patients with Cushing's disease than in 4 patients with primary adrenocortical insufficiency at 30 (p greater than 0.05), 45 (p greater than 0.05) 60 (p less than 0.05) min.     

Chronic melatonin treatment and the hypothalamo-pituitary-adrenal axis in the rat: Attenuation of the secretory response to stress and effects on hypothalamic neuropeptide content and release

The pituitary-adrenal secretory response to acute and chronic stress, suppressibility of adrenocortical secretions by exogenous glucocorticoids, and hypothalamic content and in vitro release of the two major peptidergic activators of the hypothalamo-pituitary-adrenal (HPA) axis, corticotropinreleasing hormone (CRH) and arginine-vasopressin (AVP), were examined in rats receiving daily melatonin (MEL) injections coincident with the circadian increment of endogenous pineal and adrenocortical secretory activity. After 7 days of MEL administration, the rats displayed a significant attenuation of the adrenocortical secretory response to acute and chronic stress. Chronic MEL treatment also prevented the decline in adrenocorticotropic hormone (ACTH) release resulting from chronic stress exposure. Hypothalamic CRH content was significantly lower in rats receiving MEL treatment, while AVP remained largely unaltered; however, MEL administration counteracted the chronic stress-induced decrease in hypothalamic AVP content and in vitro release. When exposed to dexamethasone in vitro, hypothalamic explants from MEL-treated rats responded with a stronger suppression of CRH and AVP release than those originating from vehicle-injected animals. These observations indicate that MEL attenuates the adrenocortical response to stress and influences the biosynthesis, release and glucocorticoid responsiveness of hypothalamic ACTH secretagogues.     

Role of nitric oxide in the nicotine-induced pituitary-adrenocortical response.

Nitric oxide (NO) is a major signaling molecule and biological mediator of the hypothalamic-pituitary-adrenal (HPA) axis. We investigated the role of NO formed by endothelial (e), neuronal (n) and inducible (i) nitric oxide synthase (NOS) in the stimulatory effect of nicotine on the HPA axis in rats under basal conditions. Also possible interaction of NOS systems with endogenous prostaglandins (PG) in that stimulation was assessed. NOS and cyclooxygenase inhibitors were administered i.p. 15 min prior to nicotine (2, 5 mg/kg i.p.). Plasma ACTH and serum corticosterone levels were measured 1 h after nicotine injection. NOS blockers given alone did not markedly affect the resting ACTH and corticosterone levels. L-NAME (2-10 mg/kg), a broad spectrum NOS inhibitor considerably and dose dependently enhanced the nicotine-induced ACTH and corticosterone secretion. L-NNA (2 mg/kg) and 7-nitroindazole (7-NI 20 mg/kg), neuronal NOS inhibitors in vivo also significantly augmented the nicotine-induced ACTH and corticosterone levels. L-arginine greatly impaired the nicotine-induced hormone responses and reversed the L-NNA elicited enhancement of the nicotine-evoked ACTH and corticosterone response. In contrast to the constitutive eNOS and nNOS antagonists, an inducible NOS antagonist guanethidine (50-100 mg/kg i.p.) did not substantially affect the nicotine-elicited pituitary-adrenocortical responses. Indomethacin (2 mg/kg i.p.), a non-selective cyclooxygenase blocker abolished the L-NAME and L-NNA-induced enhancement of the nicotine-evoked ACTH and corticosterone response. These results indicate that NO is an inhibitory mediator in the HPA axis activity. Inhibition of its generation by eNOS and nNOS significantly enhances the nicotine-induced HPA response. Under basal conditions iNOS is not involved in the nicotine-induced ACTH and corticosterone secretion. Prostaglandins play an obligatory role in the response of HPA axis to systemic nicotine administration.     

Evidence suggesting that ghrelin O-acyl transferase inhibitor acts at the hypothalamus to inhibit hypothalamo-pituitary-adrenocortical axis function in the rat

Production of n-octanoyl-modified ghrelin (GHREL), an active form of the peptide requires prohormone processing protease and GHREL O-acyltransferase (GOAT), as well as n-octanoic acid. Recently a selective GOAT antagonist (GO-CoA-Tat) was invented and this tool was used to study the possible role of endogenous GHREL in regulating HPA axis function in the rat. Administration of GOAT inhibitor (GOATi) resulted in a notable decrease in plasma ACTH, aldosterone and corticosterone concentrations at min 60 of experiment. Octanoic acid (OA) administration had no effect on levels of studied hormones. Plasma levels of unacylated and acylated GHREL remained unchanged for 60min after either GOATi or OA administration. Under experimental conditions applied, no significant changes were observed in the levels of GOAT mRNA in hypothalamus, pituitary, adrenal and stomach fundus. After GOATi injection hypothalamic CRH mRNA levels were elevated at 30 min and pituitary POMC mRNA levels at 60 min. Both GOATi and OA lowered basal, but not K(+)-stimulated CRH release by hypothalamic explants and had no effect on basal or CRH-stimulated ACTH release by pituitary slices. Neither GOATi nor OA affected corticosterone secretion by freshly isolated or cultured rat adrenocortical cells. Thus, results of our study suggest that in the rat endogenous GHREL exerts tonic stimulating effect on hypothalamic CRH release. This effect could be demonstrated by administering rats with selected inhibitor of ghrelin O-acyltransferase, the enzyme responsible for GHREL acylation, a process which is absolutely required for both GHSR-1a binding and its central endocrine activities.     

Effect of synthetic atrial natriuretic polypeptide on hemorrhage-induced adrenocorticotropin secretion of the rat

The effect of synthetic alpha-human atrial natriuretic polypeptide (alpha-hANP) on the in vivo and in vitro release of ACTH and corticosterone was examined. In the in vivo study ACTH and corticosterone responses to rapid 2-ml/rat hemorrhage were measured in sixteen conscious rats after alpha-hANP administration. The hemorrhage increased plasma ACTH and corticosterone concentrations in the control group of rats (p greater than 0.01). ANP inhibited hemorrhage-induced ACTH secretion (p less than 0.05), but the plasma corticosterone response was not affected. In the in vitro study a high concentration of ANP (1 microM) reduced basal corticosterone secretion from the isolated rat adrenal gland (p less than 0.05), but the response to ACTH (10 ng/ml) and dibutyryl cyclic AMP (0.5 mM, 5.0 mM) was not affected. Our data suggest that ANP inhibits hemorrhage-induced ACTH secretion from the anterior pituitary but inhibits corticosterone secretion from the adrenal gland very weakly.     

Basal plasma aldosterone levels and tetracosactid-induced increase of aldosterone secretion in conscious male rabbits: lack of correlation with glucocorticosteroid levels

The adrenocortical secretory activity under basal conditions and after treatment with tetracosactid (1-24ACTH) has been investigated in chronically cannulated male rabbits. Basal plasma concentrations of glucocorticosteroids (0.74 micrograms/100 ml) and aldosterone (78 pg/ml) have been determined in a greater number of animals. No significant positive correlation between basal glucocorticosteroid and aldosterone plasma levels could be found. After intravenous injection of 2.5, 5.0, 10.0 and 20.0 micrograms/kg body weight tetracosactid glucocorticosteroid concentrations were significantly elevated between 40--100 min after administration; aldosterone release, on the other hand, was significantly increased only after injection of 10.0 or 20.0 micrograms/kg body weight tetracosactid between 20--60 min after injection. After administration of high tetracosactid doses glucocorticosteroid and aldosterone plasma concentrations were significantly correlated (10.0 micrograms/kg: r = 0.62; 20.0 micrograms/kg: r = 0.26). Because of the relative insensitivity of the zona glomerulosa cells to tetracosactid administered intravenously, it is concluded that ACTH is only of minor importance in the regulation of aldosterone secretion in the rabbit.     

Adrenocortical responses to ACTH in neonatal rats: effect of hypoxia from birth on corticosterone,StAR, and PBR

The adrenocortical response to hypoxia may be a critical component of the adaptation to this common neonatal stress. Little is known about adrenal function in vivo in hypoxic neonates. The purpose of this study was to evaluate adrenocortical responses to ACTH in suckling rat pups exposed to hypoxia from birth to 5-7 days of age compared with normoxic controls. We also evaluated potential cellular controllers of steroidogenic function in situ. In 7-day-old pups at 0800, hypoxia from birth resulted in increased basal (12.2 +/- 1.4 ng/ml; n = 12) and ACTH-stimulated (94.0 +/- 9.4 ng/ml; n = 14) corticosterone levels compared with normoxic controls (basal = 8.3 +/- 0.5 ng/ml; n = 11; stimulated = 51.3 +/- 3.8 ng/ml; n = 8). This augmentation occurred despite no significant difference in plasma ACTH levels in normoxic vs. hypoxic pups before (85 +/- 4 vs. 78 +/- 8 pg/ml) or after (481 +/- 73 vs. 498 +/- 52 pg/ml) porcine ACTH injection (20 microg/kg). This effect was similar in the afternoon at 6 days of age and even greater at 5 days of age at 0800. The aldosterone response to ACTH was not augmented by exposure to hypoxia from birth. Adrenocortical hypoxia-inducible factor (HIF)-1alpha mRNA was undetectable by RT-PCR. Steroidogenic acute regulatory (StAR) protein in adrenal subcapsules (zona fasciculata/reticularis) was augmented by exposure to hypoxia; this effect was greatest at 5 days of age. Peripheral-type benzodiazepine receptor (PBR) protein was also increased at 6 and 7 days of age in pups exposed to hypoxia from birth. We conclude that hypoxia from birth results in an augmentation of the corticosterone but not aldosterone response to ACTH. This effect appears to be mediated at least in part by an increase in controllers of mitochondrial cholesterol transport (StAR and PBR) and to occur independently of measurable changes in endogenous plasma ACTH. The augmentation of the corticosterone response to acute increases in ACTH in hypoxic pups is likely to be an important component of the overall physiological adaptation to hypoxia in the neonate.     

Effect of calcium on adrenocortical secretion

The authors investigated the effect of calcium on the basal cortisol secretion and on the adrenocortical secretory reserve, the indicator of which is the so-called ACTH stimulation test. They revealed that during acute hypercalcaemia there is a significant increase of the basal cortisol secretion. The adrenocortical secretory reserve is significantly reduced during hypercalcaemia, this being manifested by a smaller rise of cortisolaemia after ACTH. The Synacthen test repeated after a 48-hour interval is fully reproducible under normocalcaemia. The basal values and the response to Synacthen do not differ from the control examination. The stimulatory action of calcium can be explained indirectly via other humoral factors, the production of which is enhanced by calcium but also the function of calcium which acts as the so-called "second messenger" in steroidogenesis. Calcium has, however, probably also a direct corticotropic effect, resembling that of ACTH.     

Effect of ACTH and prolactin on dehydroepiandrosterone, its sulfate ester and cortisol production by normal and tumorous human adrenocortical cells

The effect of ACTH and prolactin on the synthesis of dehydroepiandrosterone (DHEA) and its sulfate ester (DHEAS) was studied in cell suspensions of "normal" and tumorous (adenoma) human adrenal cortex. A stimulation of DHEA and no response of DHEAS production by ACTH in "normal" adrenocortical cell suspension was observed. However ACTH stimulated both DHEA and DHEAS synthesis in tumorous adrenocortical cells. Prolactin did not influence either the basal or the ACTH stimulated DHEA and DHEAS production of adrenocortical cells irrespective of their origin. Our results are compatible with the concept that the biosynthesis of DHEA is under ACTH control, while other factor(s) regulate(s) the sulfate pathway of DHEA secretion under normal conditions. In tumorous adrenocortical cells DHEA may be regulated--at least partly--by ACTH. Prolactin seems to have no direct effect on DHEA and DHEAS synthesis. It is postulated that the relationship between serum prolactin and DHEAS (or DHEA) levels observed by several authors might be an extraadrenal effect of prolactin on adrenal androgens.     

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

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

ACTH-induced ultrastructural changes in the zona fasciculata of the hamster adrenal cortex. Are intraadrenal thrombi regulators of corticosteroid secretion?

Correlated stereological and functional studies were performed on the effect of massive ACTH doses on adrenal cortex of the female hamster. ACTH resulted in a marked increase in adrenal gland weight at day 6 of treatment followed by a drop at day 9. Stereology showed significant enlargement of the zona fasciculata (ZF) cells with the highest value at day 6 and subsequent drop at day 9 of treatment. This hypertrophy was due to a notable increase in the volume of mitochondrial, SER, Golgi apparatus and lipid droplet compartments. Cortisol secretion by adrenal slices and homogenates was also highest at day 6 of ACTH administration and notably lower at day 9. At day 6 of ACTH treatment in outer ZF thrombi were seen. In their vicinity the subendothelial space was dilated and endothelial cells dissociated from the basal lamina. Numerous erythrocytes were also visible among dissociated ZF cells. At day 9 of experiment in outer part of ZF numerous spaces devoid of parenchymal cells appeared. The earlier authors considered the "empty spaces" or "holes" in hyperstimulated adrenal cortex as a sign of holocrine secretion of steroid hormones. The present findings enable us to introduce a new hypothesis on the development of these spaces. In our opinion in hyperstimulated adrenal cortex numerous thrombi may be formed leading thus to the degeneration of adrenocortical cells. Thus, the appearance of the "empty spaces" or "holes" in the gland is not connected with the holocrine secretion but with the regulation of the number of secretory cells in adrenal cortex by the thrombi-dependent mechanism.(ABSTRACT TRUNCATED AT 250 WORDS)     

Morphology and functional responses of isolated inner adrenocortical cells of rats infused with interleukin-beta.

The effects of the prolonged infusion with interleukin-1 beta (IL-1 beta) (20 pM.kg-1.min-1) on the function and morphology of the isolated inner cells of the rat adrenal cortex were investigated. After 3 and 5 days of IL-1 beta infusion, the level of circulating ACTH was below the control level, while the plasma concentration of corticosterone was strikingly elevated. After 5 days of infusion, isolated inner adrenocortical cells showed an enhanced basal and ACTH-stimulated corticosterone secretion, and showed a conspicuous hypertrophy. The acute exposure to IL-1 beta 10(-6) M did not affect the secretory activity of dispersed cell from either control or IL-1 beta-infused rats. These findings indicate that the prolonged exposure to high levels of circulating IL-1 beta, like those occurring during chronic inflammatory diseases, is able to enhance the growth and steroidogenic (glucocorticoid) capacity of the rat inner adrenocortical zones. Moreover, they suggest that the mechanism underlying this adrenocorticotrophic effect of IL-1 beta does not involve either a stimulation of the hypophyseal ACTH release or a direct stimulatory effect of monokine on adrenocortical cells. It is suggested that IL-1 beta may activate an intra-adrenal paracrine regulatory mechanism.     

Adrenocortical function in deoxycorticosterone acetate (DOCA)-hypertensive Yucatan miniature swine

Adrenocortical function was assessed in six normal and six chronic (greater than 12 weeks), DOCA-hypertensive Yucatan miniature swine; mean arterial pressures were 115.3 +/- 11.7 and 163.6 +/- 27.2 mm Hg, respectively (mean +/- SEM). Adrenocortical function was evaluated in vivo by measuring changes in plasma cortisol and aldosterone in response to exogenous ACTH (0.25 mg, iv), and in vitro by measuring the responses of collagenase-isolated adrenocortical cells to ACTH and angiotensin II. Corticoids were measured by specific radioimmunoassay. Basal plasma cortisol values of conscious DOCA-hypertensive swine were approximately 53% of the values of normotensive swine (P less than 0.05). However, ACTH induced a 419% increase in plasma cortisol values in DOCA-hypertensive swine compared to a 261% increase in the normotensive swine (P less than 0.05). These differences between the two groups were not altered by anesthesia. There were no significant differences in ACTH-induced changes in plasma aldosterone between the normotensive and DOCA-hypertensive swine. Experiments in vitro showed that the corticoid secretory responses of adrenocortical cells from DOCA-hypertensive animals were 6 times more sensitive to ACTH and 3.2 times more sensitive to angiotensin II than those of cells from normotensive swine. Thus, despite the possibility of adrenocortical insufficiency due to suppressed plasma renin activity and the negative feedback of DOCA on the hypothalamic-hypophyseal-adrenal axis, adrenocortical function of DOCA-hypertensive swine was hyperresponsive to trophic hormones. Results from this study suggest that the DOCA-hypertensive swine may be a valuable model in elucidating the relationship between hypertension and adrenocortical function and in investigating nonclassical control of the adrenal cortex, that is, control exerted during the hypertensive state that exists apart from or in addition to that exerted by ACTH and angiotensin II.     

Intranasal administration of ACTH(1-24) stimulates catecholamine secretion.

Previously, we reported that intranasal (IN) ACTH(1-24) administration stimulates adrenocortical steroid secretion in normal subjects. To determine the efficiency of transmucosal absorption of ACTH into the adrenal medulla, we measured serum cortisol, aldosterone, epinephrine, norepinephrine and dopamine levels after IN vs. intravenous (IV) administration of 250 microg ACTH(1-24) in 7 healthy adult men (mean age 21.7 +/- 1.2 yr; range, 21 - 24 yr). Blood was collected at 0, 30, 60 and 120 min after administration of ACTH(1-24), and the levels of adrenocortical steroids and catecholamines were measured by specific RIA and HPLC methods, respectively. There were no side effects associated with IN or IV ACTH administration. Consistent with the previous study, serum cortisol and aldosterone increased after IN administration of ACTH(1-24), peaking 30 min after administration. Sixty minutes after IN and IV administration of ACTH, epinephrine levels increased by 41.9 +/- 13.1 % and 63.3 +/- 11.8 %, respectively, and remained elevated throughout the sampling period. Thirty minutes after IN or IV administration of ACTH(1-24), plasma norepinephrine levels increased by 55.9 +/- 13.4 % and 73.7 +/- 15.0 %, respectively, peaking 30 min after ACTH(1-24) administration, and decreasing to basal levels within 60 min. Plasma dopamine levels did not change after IN administration of ACTH(1-24). Adrenocortical steroid and catecholamine levels did not increase after IN administration of saline. These results demonstrate that IN administration of ACTH(1-24) not only stimulates adrenocortical steroids, but also epinephrine and norepinephrine.     

Corticosteroidogenesis modulation by beta-endorphin and dynorphin1-17 in isolated rat adrenocortical cells

Two opioid peptides, beta-endorphin and dynorphin1-17 were bioassayed with isolated rat adrenocortical cells. beta-Endorphin increases basal production of corticosterone as well as the adrenal responsiveness to low doses of ACTH, these effects being partially reversed by naloxone. Dynorphin1-17, without affecting basal corticosterone synthesis, increases adrenocortical responsiveness to ACTH; naloxone does not influence this effect. It is suggested that peripheral opioid peptides may participate in the maintenance of the homeostatic balance by modulating adrenal corticosteroidogenesis.