Adenylate cyclase activity and cyclic AMP production in the outer and inner zones of the adrenal cortex

It has been reported that cells isolated from the inner zone of the guinea pig adrenal cortex fail to have a steroidogenic response to ACTH. To further explore this, adenylate cyclase activity of membrane particles and cAMP production by cells prepared from the inner and outer adrenocortical zones were determined. The cAMP response to ACTH and forskolin was similar for cells from both zones. Basal adenylate cyclase activity was significantly higher in the inner zone; and while absolute responses to ACTH, GppNHp, GTP, NaF, and forskolin were greater for the inner zone, relative responses were similar for the two zones. These observations suggest that the inner zone of the guinea pig adrenal cortex may have a defect in ACTH action at a step(s) beyond cAMP formation.     

Inhibition of forskolin-stimulated cardiac adenylate cyclase activity by short-chain alcohols

The diterpene forskolin stimulated rat cardiac adenylate cyclase activity at least 20-fold and potentiated the effect of NaF. The stimulatory effect of forskolin was reduced in the presence of Gpp(NH)p. Ethanol markedly reduced the stimulation of adenylate cyclase by forskolin while potentiating NaF and Gpp(NH)p stimulation. The inhibitory effect of ethanol on forskolin stimulation appeared to be of a mixed type with both a competitive and a non-competitive component. Three other short-chain linear alcohols (methanol, propanol, butanol) also inhibited forskolin-stimulation, this effect being proportional to the number of carbon atoms.     

Effects of temperature and benzyl alcohol on the structure and adenylate cyclase activity of plasma membranes from bovine adrenal cortex

Adenylate cyclase activation by corticotropin (ACTH), fluoride and forskolin was studied as a function of membrane structure in plasma membranes from bovine adrenal cortex. The composition of these membranes was characterized by a very low cholesterol and sphingomyelin content and a high protein content. The fluorescent probes 1,6-diphenylhexa-1,3,5-triene (DPH) and a cationic analogue 1-[4-(trimethylamino)phenyl]-6-phenylhexa-1,3,5-triene (TMA-DPH) were, respectively, used to probe the hydrophobic and polar head regions of the bilayer. When both probes were embedded either in the plasma membranes or in liposomes obtained from their lipid extracts, they exhibited lifetime heterogeneity, and in terms of the order parameter S, hindered motion. Under all the experimental conditions tested, S was higher for TMA-DPH than for DPH but both S values decreased linearly with temperature within the range of 10 to 40 degrees C, in the plasma membranes and the liposomes. This indicated the absence of lipid phase transition and phase separation. Addition to the membranes of up to 100 mM benzyl alcohol at 20 degrees C also resulted in a linear decrease in S values. Membrane perturbations by temperature changes or benzyl alcohol treatment made it possible to distinguish between the characteristics of adenylate cyclase activation with each of the three effectors used. Linear Arrhenius plots showed that when adenylate cyclase activity was stimulated by forskolin or NaF, the activation energy was similar (70 kJ.mol-1). Fluidification of the membrane with benzyl alcohol concentrations of up to 100 mM at 12 or 24 degrees C produced a linear decrease in the forskolin-stimulated activity, that led to its inhibition by 50%. By contrast, NaF stabilized adenylate cyclase activity against the perturbations induced by benzyl alcohol at both temperatures. In the presence of ACTH, biphasic Arrhenius plots were characterized by a well-defined break at 18 degrees C, which shifted at 12.5 degrees C in the presence of 40 mM benzyl alcohol. These plots suggested that ACTH-sensitive adenylate cyclase exists in two different states. This hypothesis was supported by the striking difference in the effects of benzyl alcohol perturbation when experiments were performed below and above the break temperature. The present results are consistent with the possibility that clusters of ACTH receptors form in the membrane as a function of temperature and/or lipid phase fluidity.(ABSTRACT TRUNCATED AT 400 WORDS)     

Stress-protective effect of the synthetic ACTH-like peptide leucocorticotropin

We found that the tritium-labeled synthetic ACTH-like octapeptide leucocorticotropin corresponding to the 81-88 sequence of the precursor of human interleukin-1alpha ([3H]GKVLKKRR) is bound by the ACTH receptor of rat adrenal cortex with a high affinity and specificity (Kd 2.2 +/- 0.1 nM). This peptide was shown to exert no effect on the adenylate cyclase activity of the membranes of rat adrenal cortex in the concentration range from 1 to 1000 nM. Leucocorticotropin administration three times at doses of 10-20 microg/animal did not change the level of hydroxycorticosteroids (11-HOCS) in the rat adrenal glands in the absence of temperature action. At the same time, the peptide abolishes (at a dose of 20 microg/animal, three times) or significantly decreases (at a dose of 10 microg/animal, three times) the dramatic increase in the 11-HOCS content in the adrenal glands occurring in the case of cold or heat shock. Thus, leucocorticotropin normalizes the 11-HOCS level in the rat adrenal cortex during stress. The stress-protective effect of the peptide is mediated through the ACTH receptor.     

Stimulation of adenylate cyclase in the heart of Aplysia californica by biogenic amines

The effects of serotonin (5-HT), dopamine (DA), several peptides including FMRFamide and arginine vasotocin, the diterpene forskolin and Ca2+ were examined on adenylate cyclase in a particulate fraction from hearts of Aplysia californica. Enzyme activity was stimulated 6-7-fold by 5-HT (EC50, 1 microM) in the presence of GTP. Several 5-HT analogs particularly 5-methoxytryptamine and 5-methoxy-N-N-dimethyltryptamine were also active. The stimulatory action of 5-HT was antagonized by the 5-HT receptor blockers methergoline and metitepine and by the DA receptor blocker chlorpromazine. Dopamine had weak stimulatory action (EC50, 10 microM) and an efficacy relative to that of 5-HT of 0.3. The action of DA was antagonized by chloropromazine and metitepine. Several peptides including FMRFamide and arginine vasotocin had no effect on adenylate cyclase when tested over the concentration range 0.1-100 microM. The enzyme was stimulated 6-fold by the diterpene forskolin (EC50, 2 microM). 5-HT-stimulated activity was strongly inhibited by Ca2+. Calmodulin had no action on the enzyme in the presence of Ca2+.     

The effects of chronic SRIH-14 and octreotide administration on the pituitary-adrenal axis in adult male rats

The effects of chronic treatments with SRIH-14 and octreotide on pituitary corticotropes (ACTH cells) and on the adrenal cortex of male Wistar rats were examined. Adult males received two daily s.c. injections of 20 microg/100 g of body weight of either SRIH-14 or octreotide for 28 consecutive days. ACTH cells were studied using a peroxidase-antiperoxidase immunocytochemical procedure. Morpho-metry was used to evaluate the changes in cell and nuclear volumes (microm3) and volume densities (%) of ACTH-immunoreactive cells. The adrenal cortex was analyzed by histological and morphometric methods. A significant (p<0.05) decrease in body weight and in the absolute weights of the pituitary and adrenal glands was observed in both treated groups. Morphometric parameters of ACTH cells in both treated groups were not significantly (p>0.05) different than in control rats. The absolute volumes of the adrenal gland and adrenal cortex were significantly (p<0.05) decreased in both treated groups. The absolute and relative volumes of the zona glomerulosa (ZG), as well as the cellular and nuclear volumes of the ZG were significantly (p<0.05) decreased in the both treated groups. In rats treated with SRIH-14 and octreotide, the absolute and relative volumes of the zona fasciculata (ZF) and zona reticularis (ZR), as well as their stereological parameters, did not change significantly (p>0.05). The aldosterone levels in the SRIH-14 and ocreotide-treated groups were significantly (p<0.05) decreased - by 13% and 19%, respectively. The concentration of ACTH and corticosterone did not change significantly. Together, these findings show that SRIH-14 and octreotide administration affected the morphological characteristics of the adrenal ZG in a similar manner, and brought about a decrease in plasma aldosterone concentration. These treatments did not affect pituitary ACTH cells or adrenal ZF and ZR functioning.     

Regulation of aldosterone synthesis

The effects of angiotensin II and ACTH on cyclic AMP and aldosterone synthesis were studied in cells isolated from the bovine adrenal cortex. Angiotensin is a more potent stimulus of aldosterone synthesis than ACTH and the action of ACTH on aldosterone synthesis in cells from the glomerulosa is augmented by the presence of cells from the fasciculata. Angiotensin stimulates aldosterone synthesis in the absence of detectable changes in cyclic AMP, but the cells do respond to dibutyryl cyclic AMP leaving open the possibility that a cyclic nucleotide may play a role in the steroidogenic action of this hormone in the outer zone of the bovine adrenal cortex.     

The potentiating effects of phorbol ester on ACTH-, cholera toxin-, and forskolin-induced cAMP production by cultured bovine adrenal cells is not mediated by the inactivation of alpha subunit of Gi protein

Phorbol ester (PMA) potentiates ACTH-induced cAMP production by both fresh isolated and 7-day-old cultured adrenal cells, but the effect on cultured cells was greater than in fresh cells. In cultured cells the potentiating effects of PMA were dose-dependent and were observed at each effective dose of ACTH without modification of the ED50 for this hormone. These effects of PMA do not seem to be exerted through a modification of the alpha subunit of Gi since pretreatment of the cells with Bordetella pertussis toxin did not modify the action of PMA and since the amount of alpha i in 7-day-old cultured cells was ten times lower than in fresh cells, while the potentiating effect was lower in the latter. Moreover, since PMA still exerted its potentiating action in cells stimulated by maximal concentration of cholera toxin or forskolin either alone or in combination with ACTH, it is likely that its action is not mediated exclusively by the alpha subunit of Gs. Taken together, the present results and those of the literature suggest that this potentiating effect of phorbol ester on effector-induced cAMP production might be mediated by inhibition of the beta-subunit of G proteins.     

Effect of pentagastrin on steroid secretion and proliferative activity of regenerating rat adrenal cortex

The effects of three subcutaneous injections of 3 nmol/100 g body weight of the cholecystokinin type 2 (CCK2) receptor agonist pentagastrin on adrenocorticotrophic hormone (ACTH) and corticosterone secretion and proliferative activity of regenerating rat adrenal cortex were investigated. Pentagastrin did not alter either ACTH and corticosterone plasma concentrations or the adrenal mitotic index at day 5 of regeneration. In contrast, it increased (by about 50%) the adrenal mitotic index at day 8 of regeneration, and the effect was blocked by the simultaneous administration of equimolar doses of the CCK2-receptor antagonist PD-135,158. It is suggested that the activation of CCK2 receptors exerts a growth promoting action on the regenerating rat adrenal cortex.     

Adrenal adenylate cyclase and steroidogenic activities of 63 day old ovine fetuses: in vitro effects of ACTH1-24 and forskolin

This study examines the activity of the adenylate cyclase system and that of some enzymes of the steroidogenic pathway of adrenal cells from 62-63 day old ovine fetuses. Synthetic corticotropin (ACTH1-24), cholera toxin and forskolin stimulated both cAMP and corticoid productions by freshly isolated adrenal cells. The cAMP response to ACTH1-24 was lower than that to forskolin. However, forskolin-induced steroidogenesis was significantly lower than the ACTH1-24-induced steroid output. Freshly isolated cells metabolized quickly [14C]-labeled pregnenolone mainly through the 17-deoxy pathway. The amounts of cortisol and of corticosterone formed, in the presence of exogenous pregnenolone, were roughly 15-fold higher than under maximal stimulation by ACTH1-24. When the cells were cultured for 6 days in the absence or presence of ACTH1-24 (10(-8) M) or forskolin (10(-5) M), a small development of the cAMP response to these factors was observed in the course of the experiment. However, the mechanism of this development appeared different, according to the conditions of culture. The amounts of corticosterone secreted on day 6 by ACTH1-24- or forskolin-treated cells were 2- to 4-fold higher than on day 1, whereas cortisol outputs were much lower on day 6 than on day 1. The response to ACTH1-24 of cells maintained in ACTH-free media decreased dramatically during the culture in terms of both cortisol and of corticosterone. On day 6 of the experiment, the metabolism of [14C]pregnenolone was lower than on day 1 under all 3 conditions of culture. Only the 3 beta-hydroxysteroid dehydrogenase/isomerase activity could be maintained by continuous treatment with forskolin. However, both ACTH1-24 and forskolin enhanced the production of pregnenolone from an endogenous substrate. In conclusion, these results present evidence that: 1) the adenylate cyclase system is not a bottleneck in the steroidogenic response to ACTH1-24 of freshly isolated adrenal cells from 62-63 day old ovine fetuses; 2) the main rate-limiting step for steroidogenesis by these cells is the availability of pregnenolone; 3) neither ACTH1-24 nor forskolin is able to maintain the activity of most enzymes involved in the metabolization of pregnenolone by cultured cells while increasing pregnenolone availability; 4) some inhibiting factors are involved in the loss of adrenal cells responsiveness to ACTH between days 50 and 100 of gestation, and they probably act mainly on the adenylate cyclase system.     

Stress-protective effect of the synthetic ACTH-like peptide leucocorticotropin

We found that the tritium-labeled synthetic ACTH-like octapeptide leucocorticotropin corresponding to the 81–88 sequence of the precursor of human interleukin-1α ([³H]GK VLKKRR) is bound by the ACTH receptor of rat adrenal cortex with a high affinity and specificity (K _d 2.2 ± 0.1 nM). This peptide was shown to exert no effect on the adenylate cyclase activity of the membranes of rat adrenal cortex in the concentration range from 1 to 1000 nM. Leucocorticotropin administration three times at doses of 10–20 μg/animal did not change the level of hydroxycorticosteroids (11-HOCS) in the rat adrenal glands in the absence of temperature action. At the same time, the peptide abolishes (at a dose of 20 μg/animal, three times) or significantly decreases (at a dose of 10 μg/animal, three times) the dramatic increase in the 11-HOCS content in the adrenal glands occurring in the case of cold or heat shock. Thus, leucocorticotropin normalizes the 11-HOCS level in the rat adrenal cortex during stress. The stress-protective effect of the peptide is mediated through the ACTH receptor.     

Activation of adenylate cyclase by forskolin in rat brain and testis

Detergent-dispersed adenylate cyclase from rat cerebrum was detected in two components, one sensitive to Ca2+ and calmodulin and another sensitive to fluoride or guanyl-5'-yl imidodiphosphate (Gpp(NH)p). The enzyme activity of both components was markedly augmented by forskolin assayed in the presence or absence of other enzyme activators (e.g., NaF, Gpp(NH)p, calmodulin). The catalytic subunit fraction in which G/F protein was totally lacking was also activated by forskolin. During 1-35 days of postnatal development, the basal adenylate cyclase activities in either cerebrum and cerebellum particulate preparations progressively increased. While the fluoride sensitivity of the cerebrum and cerebellum enzyme increased during postnatal development, the responsiveness to forskolin remained unaltered. There was no enhancement of soluble adenylate cyclase (from rat testis) by forskolin under the assay conditions in which there was a marked stimulatory action on the particulate enzyme. The results seen with the solubilized enzyme, with either Lubrol PX or cholate, indicate that the effects of forskolin on the cyclase do not require either G/F protein or calmodulin and the results of our study of brain enzymes support this view. Data on soluble testis cyclase (a poor or absent response to forskolin by this enzyme) imply that it lacks a protein (other than the catalytic unit) which could confer greater stimulation. The present results do not rule out an alternative explanation that forskolin stimulates adenylate cyclase by a direct interaction with the catalytic subunit, if the catalytic proteins do differ widely in various species of cells and their response to this diterpene.     

Steroid and xenobiotic effects on the adrenal cortex: mediation by oxidative and other mechanisms

Because steroids reach high concentrations within the adrenal cortex, effects of the direct interaction of steroids and cytochrome P450 enzymes are possible and may involve oxidative damage. Steroid pseudosubstrate effects studied in cultured adrenocortical cells show that these effects are probably not mediated by steroid receptors. Release of oxidants during pseudosubstrate interaction with cytochrome P450s may be responsible for loss of enzymatic activity observed; enzyme activity can be protected by cytochrome P450 inhibitors, antioxidants, and lowered oxygen concentration. There may be pathological effects of pseudosubstrates in the adrenal cortex. Cytochrome P450/pseudosubstrate effects could be involved in the aging and death of adrenocortical cells in vivo, and necrosis of the adrenal cortex due to excessive ACTH stimulation or due to the action of adrenolytic chemicals could result from damage by oxygen radicals originating from cytochrome P450s. The possible mechanism of damage to the adrenal cortex by the xenobiotics dimethylbenzanthracene, TCDD, 3-methylcholanthrene, and o', p'-DDD are reviewed.     

Direct demonstration of adrenocorticotropin-induced changes in cytoplasmic free calcium with aequorin in adrenal glomerulosa cell

Effects of adrenocorticotropin (ACTH) on cytoplasmic free calcium concentration, [Ca2+]c, have been measured in adrenal glomerulosa cells using a calcium-sensitive photoprotein, aequorin. ACTH causes a rapid and transient increase in [Ca2+]c. Dose response study demonstrates that 1 pM ACTH induces an elevation of [Ca2+]c and that effect of ACTH appears to be saturated at 100 pM. ACTH action is greatly inhibited but not abolished by removal of extracellular calcium and is completely blocked in medium containing no added calcium and 1 mM EGTA. Under similar conditions, angiotensin II induces a remarkable rise in [Ca2+]c. ACTH action is not affected by pretreatment with dantrolene, which considerably decreases angiotensin II action on [Ca2+]c. One micromolar forskolin, which mimics 1 nM ACTH-mediated elevation of intracellular cAMP, does not increase [Ca2+]c nor modulates changes in [Ca2+] induced by a low dose of ACTH. One hundred micromolar forskolin or 1 mM 8-bromo-cAMP, however, increases [Ca2+]c even in calcium-free medium containing 1 mM EGTA. When glomerulosa cells are co-loaded with aequorin and quin2, angiotensin II-induced change in aequorin signal is greatly reduced, and ACTH-induced change is abolished. Quin2 loading results in accumulation of calcium in the cell under both unstimulated and stimulated conditions. These results indicate that ACTH increases [Ca2+]c by cAMP-independent mechanism, that ACTH action on [Ca2+]c is exclusively dependent on extracellular calcium, and that quin2 is unable to detect the rapid change in [Ca2+]c because of its calcium chelating activity.     

Corticotropin-Peptide Regulation of Intracellular Cyclic AMP Production in Cortical Neurons in Primary Culture

Previous studies have provided evidence for adrenocorticotropic hormone (ACTH) effects on a wide variety of behaviors. However, the precise sites of action and the mechanisms by which these effects may be mediated have yet to be clearly elucidated. Although ACTH was shown to augment cyclic AMP levels in glial cells isolated from whole brain, other studies found little or no effect of ACTH peptides on cyclic nucleotide metabolism in slices of cerebral cortex or homogenates of whole brain. In the present study, our objective was to determine whether ACTH peptides regulate intracellular cyclic AMP levels in neurons of the cerebral cortex in primary culture. ACTH peptides stimulated cyclic AMP synthesis up to threefold in a dose-dependent manner; stimulation was complete within 5-10 min of exposure to agonists. Neurohormone efficacy was augmented by 0.1 microM forskolin (which was virtually ineffective alone); potency was unaffected. The order of potency (EC50) for increasing intracellular cyclic AMP levels was as follows: ACTH (1-24), ACTH (1-17) (10 nM) greater than alpha-melanocyte stimulating hormone, beta-melanocyte stimulating hormone (alpha-MSH, beta-MSH) (100 nM) greater than ACTH (1-10) (1 microM) greater than ACTH (4-10) (5 microM). The hexapeptide ACTH (4-9) as well as ACTH (11-24) were inactive at concentrations as high as 10 microM. Other neuropeptides derived from proopiocortin, such as beta-endorphin and Met- and Leu-enkephalin were without effect on basal or hormonally stimulated cyclic AMP synthesis.(ABSTRACT TRUNCATED AT 250 WORDS)     

Inhibitory effects of a pineal extract on adrenal cortex. Lack of competition with ACTH

The purpose of the present investigation was to study the mode of action of a crude aqueous pineal extract (CAPE) on corticosterone (B) production from ACTH-mediated isolated adrenal cortex cells. Corticosterone production from a heterogenous adrenal cortex cell population, isolated from 8 male Sprague-Dawley rats, was measured fluorimetrically. CAPE (25 microliters) was tested in this system using ACTH (0--5,000 pg/ml) and dibutyryl-c-AMP (0--100 nM/ml) as stimuli for a period of 1 h. In a separate experiment, CAPE (25 microliters) was administered to ACTH (50 pg/ml) stimulated adrenal cortex cells for 15, 30, 60, and 120 min incubation periods. CAPE significantly decreased B produced by adrenal cortex cells at all doses of ACTH administered. CAPE also decreased the B produced by adrenal cortex cells when dibutyryl-c-AMP was used as a stimulus. The inhibitory effect of CAPE was manifest at some point in time between 30 and 60 min. It was significant at 60 min and highly significant at 120 min. It is evident from these data that CAPE and ACTH are not competing for the same receptor site.     

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

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

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

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

Steroidogenic effect of ent-kaur-16-en-15 beta-ol (kaurenol) on isolated rat adrenal cells

In an in vitro bioassay system for adrenocorticotropic hormone using isolated rat adrenal cells, kaurenol, a diterpene alcohol, stimulated corticosterone production and augmented the steroidogenic effect of adrenocorticotropin or forskolin, dose-dependently. Kaurenol had no effect on cyclic AMP production by the cells. The diterpene also had no stimulatory effect on the adrenal adenylate cyclase activity in a cell free system. The results suggest that this particular diterpene exerts a steroidogenic effect through a mechanism independent of cyclic AMP generation.