Adrenocortical function in 4-APP treated rats: a coupled stereological and biochemical study

Adrenocortical function in 4-APP-induced (4-aminopyrazolo[3,4-d]pyrymidine) lipoprotein-deficient rats was studied in relation to quantitative morphologic changes in the gland. 4-APP treatment results in enlargement of the adrenal cortex and its zona fasciculata and reticularis cells. In enlarged livers, cholesterol and free fatty acid concentrations were similar to that of control rats, however a marked accumulation of triglycerides with a concomitant drop in hepatic delta 4-steroid hydrogenase activity was found. A profound drop in serum cholesterol in both, high and low density lipoproteins, as well as triglycerides and plasma corticosterone concentrations was accompanied by a marked lowering of cholesterol and corticosterone concentration in the adrenal gland. Corticosterone output by adrenal homogenates was higher in 4-APP treated rats than in control animals. Such a treatment did not change cholesterol side-chain cleavage, 11 beta-hydroxylase, 3 beta-ol dehydrogenase-isomerase, steroid 5 alpha-reductase and neutral lipase activities when expressing results per unit weight of tissue or protein. However, when calculating per adrenocortical cell, adenine analogue applied increased 11 beta-hydroxylase, steroid 5 alpha-reductase and neutral lipase activities. Thus, coupled biochemical and stereologic studies revealed a complex and multidirectional effect of 4-APP on the rat adrenal cortex. This effect may be caused by serum lipoprotein deficiency and by toxic and stressful action of the adenine analogue on the rat. Also a direct effect of 4-APP on rat adrenal cortex may not be excluded.     

Proliferation and distribution of adrenocortical cells in ACTH treated female hamsters

The aim of the study was the analysis, by means of combined stereologic methods and metaphase arrest technique of the adrenocortical growth of ACTH treated hamster. Adult female hamsters were treated daily with 50 micrograms ACTH (Synacthen Depot, Ciba) for 3, 6 and 9 days. Between days 3 and 9 nearly linear increase in adrenal gland weight was observed, mainly due to the enlargement of the fasciculata and reticularis zones. Throughout the experiment, there was no marked change in the number of the zona glomerulosa cells while from the day 3 a notable increase in the number of fasciculata and reticularis cells occurred. Prolonged ACTH treatment resulted in a significant increase in 3H-thymidine incorporation with the highest value on day 6 and subsequent drop on day 9. Also metaphase index of adrenocortical cells notably increased due to ACTH administration and again the highest value was found on day 6 of experiment. From stereologic data and from metaphase index, adrenocortical cell birth-rates in individual adrenocortical zones and in the entire cortex were calculated. There were great differences between the values calculated from metaphase index and those obtained from stereologic data, with the former significantly lower. ACTH enhances centripetal migration of parenchymal cells in the hamster adrenal cortex and causes their accumulation in the zona reticularis.     

Investigations on the effects of long-term administration of a methionine-enkephalin analogue on the adrenal zona fasciculata of rats treated with dexamethasone or dexamethasone and ACTH

Prolonged (7 days) methionine-enkephalin (DALA) treatment provoked a dose-dependent increase in the volume of zona fasciculata cells of dexamethasone-administered rats, along with a notable rise in the plasma concentration of corticosterone and the activity of 11 beta-hydroxylase. Comparable dose-dependent effects were observed after chronic administration of ACTH to dexamethasone-suppressed rats. The chronic administration of the maximum dose of DALA (500 micrograms/kg/day) was found to significantly further the trophic action of ACTH on the zona fasciculata of dexamethasone-treated animals. It is suggested that enkephalins act independently of and synergistically with ACTH in stimulating the growth and steroidogenic capacity of the rat adrenal zona fasciculata.     

Effects of prolonged treatment with adrenocorticotropin on the morphology and function of rat adrenocortical autotransplants.

Regenerated adrenocortical nodules were obtained by implanting in the musculus gracilis of rats fragments of the capsular tissue of their excised adrenal glands. Five months after operation, transplanted rats showed a slightly elevated blood concentration of adrenocorticotropin (ACTH), a moderately reduced plasma level of corticosterone (PBC) and a very low concentration of circulating aldosterone (PAC). Regenerated nodules were well encapsulated, and from the connective capsule some septa dipped into the parenchyma. Subcapsular-outer (OZ) and inner (IZ) cells were similar to those of the zona fasciculata/zona reticularis (ZF/ZR) of the normal gland; juxta-septal (JZ) cells resembled those of the zona glomerulosa (ZG). Prolonged (14 days) ACTH infusion normalized PBC and caused a conspicuous hypertrophy of transplanted tissue, which was coupled with a marked hypertrophy of ZF/ZR-like OZ and IZ cells and a notable rise in the basal in vitro production of corticosterone. Conversely, ACTH infusion strikingly lowered PAC, reduced the number of ZG-like JZ cells, and decreased both basal and stimulated secretion of 18-hydroxylated steroids by transplants in vitro.     

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.     

The effects of ACTH, phytoestrogens and estrogens on corticosterone secretion by gander adrenocortical cells in breeding and nonbreeding seasons

The aim of this study was to investigate the effects of ACTH, phytoestrogens (genistein, daidzein, biochanin A and coumestrol), and animal estrogens (estradiol and estrone) on corticosterone secretion by isolated adrenocortical cells of the ganders in breeding (April) and nonbreeding seasons (July). ACTH stimulated corticosterone output in the breeding season. In July (photorefractoriness and postbreeding molt) ACTH had no effect on corticosterone production. Coumestrol reduced corticosterone secretion by the cells obtained in nonbreeding season. Other examined phytoestrogens did not affect corticosterone production. Estrogens showed differentiated effects. Estradiol stimulated the corticosterone output in breeding season; estrone inhibited corticosterone release in July. The season can probably affect sensitivity of isolated gander adrenal cells, especially to ACTH. It seems that goose adrenocortical cells, in contrast to the mammalian cells, can be weakly sensitive to phytoestrogens.     

In vitro studies of nuclear volume of rat adrenocortical cells: lace of ACTH effect

The effect of ACTH on nuclear volume of adrenocortical cells in the zona fasciculata of rat adrenal cortex was examined in vitro. Sections of adrenal gland were incubated for 60 or 90 min in Krebs-Ringer's solution with 1% glucose in the presence of ACTH, actinomycin D, cycloheximide and aminoglutethimide. ACTH, despite its clear effect in stimulating steroidogenesis, did not exert a direct effect on the nuclear volume of cells studied. This phenomenon is not dependent upon the stimulation of steroidogenesis, since aminoglutethimide does not influence the nuclear volume of adrenocortical cells studied; rather, ACTH in the presence of aminoglutethimide leads to a decrease in their volume. Actinomycin D does not influence nuclear volume while after incubation with cycloheximide nuclei were larger than the control. The presence of ACTH did not alter this effect. These results indicate no relationship between the degree of corticosterone output and nuclear volume in rat adrenocortical cells of the zona fasciculata in vitro.     

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)     

Evidence that long-term methionine-enkephalin administration stimulates rat adrenal zona fasciculata

Short-term methionine-enkephalin (DALA) treatment did not induce evident changes in the adrenal zona fasciculata and in the basal corticosterone output of dexamethasone-treated rats administered with maintenance doses of ACTH. Conversely, prolonged (5 days) DALA treatment caused a notable hypertrophy of zona fasciculata cells, along with a significant increase in the plasma concentration of corticosterone. It is suggested that enkephalins exert a trophic action on the rat zona fasciculata.     

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.     

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.     

Effects of glucagon and glucagon-like peptide-1 on glucocorticoid secretion of dispersed rat adrenocortical cells.

The effects of glucagon and glucagon-like peptide-1 (GLP-1) on the secretory activity of rat adrenocortical cells have been investigated in vitro. Neither hormones affected basal or agonist-stimulated aldosterone secretion of dispersed rat zona glomerulosa cells or basal corticosterone production of zona fasciculata-reticularis (inner) cells. In contrast, glucagon and GLP-1 partially (40%) inhibited ACTH (10(-9) M)-enhanced corticosterone secretion of inner cells, maximal effective concentration being 10(-7) M. The effect of 10(-7) M glucagon or GPL-1 was suppressed by 10(-6) M Des-His1-[Glu9]-glucagon amide (glucagon-A) and exendin-4(3-39) (GPL-1-A), which are selective antagonists of glucagon and GLP-1 receptors, respectively. Glucagon and GLP-1 (10(-7) M) decreased by about 45-50% cyclic-AMP production by dispersed inner adrenocortical cells in response to ACTH (10(-9) M), but not to the adenylate cyclase activator forskolin (10(-5) M). Again this effect was blocked by 10(-6) M glucagon-A or GLP-1-A. The exposure of dispersed inner cells to 10(-7) M glucagon plus GLP-1 completely suppressed corticosterone response to ACTH (10(-9) M). However, they only partially inhibited (by about 65-70%) both corticosterone response to forskolin (10(-5) M) or dibutyryl-cyclic-AMP (10(-5) M) and ACTH (10(-9) M)-enhanced cyclic-AMP production. Quantitative HPLC showed that 10(-7) M glucagon or GLP-1 did not affect ACTH-stimulated pregnenolone production, evoked a slight rise in progesterone and 11-deoxycorticosterone release, and markedly reduced (by about 55%) corticosterone secretion of dispersed inner adrenocortical cells. In light of these findings the following conclusion are drawn: (i) glucagon and GLP-1, via the activation of specific receptors, inhibit glucocorticoid response of rat adrenal cortex to ACTH; and (ii) the mechanism underlying the effect of glucagon and GLP-1 is probably two-fold, and involves both the inhibition of the ACTH-induced activation of adenylate cyclase and the impairment of the late steps of glucocorticoid synthesis.     

Vasopressin: a potent growth factor in adrenal glomerulosa cells in culture

Previous studies have shown that vasopressin stimulates the mitotic activity in adrenal zona glomerulosa cells in intact as well as in hypophysectomized rats. (Payet and Isler, Cell and Tissue Res. 172, 1976; Payet and Lehoux, J. steroid Biochem. 12, 1980). We now report that this effect is direct and specific, since vasopressin stimulates the mitotic activity of rat adrenal zona glomerulosa cells in primary cultures. These cells were prepared by dissociation with collagenase in the culture medium MEM-d-Valine. Isolated cells were placed in 3.5 diameter petri dishes in MEM-d-valine medium containing 15% fetal calf serum and antibiotics for two days and 5% fetal calf serum for subsequent cultures. The medium was changed at 24 hr intervals. The hormones were added 3 days after the culture was started. The mitogenic effect of vasopressin was found to be dependent both on time and hormone concentrations. Vasopressin (10(-11) M) stimulated thymidine incorporation 4.8 +/- 0.6-fold after 2 days of treatment and 5.3 +/- 1.6-fold after 8 days. When ACTH (10(-11) M) was added together with vasopressin (10(-11) M) the mitogenic effect was enhanced at 6.5 +/- 1.9-fold after 2 days and 12.9 +/- 6.9-fold after 8 days of treatment. The aldosterone and corticosterone outputs were also stimulated by the combined presence of vasopressin and ACTH in the incubation medium; a maximal effect was observed between 6 and 8 days of treatment. Vasopressin (10(-11) M) + ACTH (10(-11) M) stimulated the aldosterone output 7-fold and that of corticosterone by 18-fold. When added alone, vasopressin, as well as ACTH alone had only a small effect on the aldosterone output. However, ACTH alone stimulated the corticosterone output 10-fold. In conclusion, vasopressin is an important and specific growth factor of the adrenal zona glomerulosa cells. In addition, together with ACTH vasopressin stimulates the aldosterone and corticosterone output both in vivo and in vitro in primary cell cultures.     

ACTH increases adrenal medullary PNMT activity in neonatal rats

Levels of plasma corticosterone and the activities of adrenomedullary dopamine-beta-hydroxylase (DBH) and phenylethanolamine-N-methyltransferase (PNMT) were measured in the 7-day-old rat following the administration of adrenocorticotropic hormone (ACTH) for 7 consecutive days beginning with day 1. ACTH led to significant adrenal hypertrophy and a concomitant elevation (10 to 15 fold) of plasma corticosterone concentration. Whereas DBH activity remained unchanged, adrenal PNMT activity was increased significantly following ACTH-induced elevation of plasma corticosterone levels. These results indicate that the pituitary-adreno-cortical-adrenomedullary axis is functional in the neonatal rat. Furthermore, since the transsynaptic control mechanisms are known to be non-functional or immature in the 7-day-old rat, our data suggest that neonatal rat adrenal catecholamine biosynthesis may be largely controlled by the pituitary-adrenocortical axis via glucocorticoids.     

Toluene inhalation-induced adrenocortical hypertrophy and endocrinological changes in rat

Rats were exposed to toluene (1,500 ppm for 4 hr per day) for 7 days. The body weight of the rats was significantly lower and the weight of the adrenal gland was significantly higher in the toluene inhalation group compared to the controls. Microscopically, there was no obvious change in the medulla, but hypertrophy of the cortex was observed in the toluene inhalation group. And, the size of adrenocortical cells in treated-rats was also significantly enlarged than the control. Immunohistochemical staining did not show a clear difference in localization of aldosterone-positive cells between the control and inhalation groups. Expansion of the corticosterone-positive area consistent with the cortical hypertrophy was recognized in the inhalation group. Enhancement of 72 kD-heat-shock protein (HSP70)-expression in the toluene inhalation group was not observed. Neither stress nor damage to cortical cells due directly to toluene exposure was observed in the cortex. Also, there was no obvious difference in the anti-proliferating cell nucleus antigen (PCNA)-immunostaining between control and inhalation groups. Thus, it is suspected that cortical hypertrophy was the result of cell enlargement due to the stimulation of the cortical cells. Corticotropin-releasing factor (CRF) immunoreactivity in the paraventricular nucleus (PVN) was increased in the inhalation group. Concentration of plasma ACTH was elevated significantly by toluene exposure. The amounts of mRNA of adrenocortical steroid metabolism gene, cytochrome side-chain cleavage (P450scc), was also increased by toluene inhalation. Toluene exposure might induce adrenocortical hypertrophy via the hypothalamus-pituitary-adrenal gland (HPA) axis.     

Effects of tropic hormones on ultrastructure and synthesis of androgens in adrenals of male pseudohermaphrodite rats

Summary Ultrastructural and biochemical study of the adrenals in the pseudohermaphrodite (tfm) rat reveals hypertrophic adrenocortical cells. The cytoplasm of the cells in the zonae fasciculata and reticularis contains an exceptionally well developed smooth endoplasmic reticulum closely applied to mitochondria and lipid droplets. Mitochondria are more numerous than in normals and have especially abundant tubular cristae. More lipid droplets (appearing as empty vacuoles) are surrounded by pleomorphic mitochondria.The incubation study indicates that the capacity of rat adrenal cortex of producing androgens is greater in tfm than in normal animals. Hypophysectomy and castration result in a significant decrease in androgen biosynthesis by tfm rat adrenals and cause a reduced concentration of plasma testosterone. Administration of tropic hormones to hypophysectomizedcastrated rats appears to stimulate their adrenal androgenesis. It is suggested that in tfm rats the higher than normal luteinizing hormone (LH) together with adrenocorticotropic hormone (ACTH) stimulates the hypertrophy of cellular organelles in the adrenal cortex and causes an accompanying increase in androgenic steroids which may be responsible, at least in part, for the increased level of plasma androgens.     

Involvement of GABAB receptors in the regulation of the hypothalamo-pituitary-adrenocortical (HPA) axis in rats

Previous experiments have shown that the GABA_B receptor agonist -baclofen given subcutaneously to male rats significantly enhanced plasma concentrations of adrenocorticotropic hormone (ACTH) and the adrenocortical hormones corticosterone and aldosterone. The goal of the present study was to investigate whether the stimulatory effects on adrenocortical steroids elicited by -baclofen in vivo could be reversed by the selective GABA_B antagonist CGP 35 348. One hour before subcutaneous administration of 3 mg/kg -baclofen, a dose of 600 mg/kg CGP 35 348 or saline was administered intraperitoneally. The stimulatory effect of -baclofen on ACTH, corticosterone and aldosterone was significantly reduced by 60% after pretreatment with CGP 35 348. The GABA_B antagonist CGP 35 348 by itself had no effect on ACTH or the adrenocortical hormones. These results indicate that GABA_B receptors are involved in the -baclofen-induced activation of the HPA axis in rats. In vitro, however, neither -baclofen nor CGP 35 348 had any effects on corticosterone and aldosterone release from perifused adrenal cells. These results suggest that the participation of GABA_B receptors in the activation of the HPA axis induced by -baclofen in vivo does not occur at the level of the adrenal gland, and therefore must occur at the level of the pituitary or the brain.     

Acute effects of alpha-MSH on the rat zona glomerulosa in vivo

alpha-MSH acutely enhanced the plasma concentration of aldosterone (but not that of corticosterone) in the rat, with a maximal response at a dose of 100 micrograms/kg. This dose of alpha-MSH increased the blood level o aldosterone and the activity of 11 beta-hydroxylase and 18-hydroxylase of capsular adrenals in rats infused for 24 h with dexamethasone, dexamethasone plus ACTH, or captopril plus angiotensin II, but not in animals treated with captopril alone. The plasma concentration of corticosterone and the activity of 11 beta-hydroxylase in the inner adrenal layers were not changed. These findings indicate that alpha-MSH is specifically involved in the acute stimulation of the late steps of the secretory activity of the rat zona glomerulosa, and that this action of alpha-MSH requires a normal level of circulating angiotensin II.