Showing papers on "Adrenal cortex published in 1996"

Molecular Determinants of Glucocorticoid Receptor Function and Tissue Sensitivity to Glucocorticoids

Abstract: I. Introduction STEROID hormones are essential constituents of the intercellular communication system that maintains homeostasis in higher organisms. Glucocorticoids, a major subclass of steroid hormones, modulate a large number of metabolic, cardiovascular, immune, and behavioral functions (for a review see Refs. 1 and 2). Glucocorticoids are produced by the adrenal cortex under the regulatory influence of ACTH. The latter is produced by corticotrophs of the anterior pituitary, in turn, under the regulatory influence of hypothalamic CRH and arginine vasopressin (AVP). The hypothalamic-pituitary-adrenal (HPA) axis is kept in balance by the negative feedback effects of cortisol on the secretion of ACTH, CRH, and usually, to a lesser extent, AVP. In the resting state, basal levels of CRH, AVP, ACTH, and cortisol are released in a pulsatile and circadian fashion. At these baseline levels, the main function of cortisol is to sustain normoglycemia and to prevent arterial hypotension. Whether and to what extent...

Early environmental regulation of forebrain glucocorticoid receptor gene expression: implications for adrenocortical responses to stress.

Abstract: The adrenal glucocorticoids and catecholamines comprise a frontline of defense for mammalian species under conditions which threaten homeostasis (conditions commonly referred to as stress). Glucocorticoids represent the end product of the hypothalamic-pituitary-adrenal (HPA) axis and along with the catecholamines serve to mobilize the production and distribution of energy substrates during stress. The increased secretion of pituitary-adrenal hormones in response to stress is stimulated by the release of corticotropin-releasing hormone (CRH) and/or arginine vasopressin (AVP) from neurons in the nucleus paraventricularis. In this way, a neural signal associated with the stressor is transduced into a set of endocrine and sympathetic responses. The development of the HPA response to stressful stimuli is altered by early environmental events. Animals exposed to short periods of infantile stimulation or handling show decreased HPA responsivity to stress, whereas maternal separation, physical trauma and endotoxin administration enhance HPA responsivity to stress. In all cases, these effects persist throughout the life of the animal and are accompanied by increased hypothalamic levels of the mRNAs for CRH and often AVP. The inhibitory regulation of the synthesis for these ACTH releasing factors is achieved, in part, through a negative feedback loop whereby circulating glucocorticoids act at various neural sites to decrease CRH and AVP gene expression. Such inhibitory effects are initiated via an interaction between the adrenal steroid and an intracellular receptor (either the mineralocorticoid or glucocorticoid receptor). We have found that these early environmental manipulations regulate glucocorticoid receptor gene expression in the hippocampus and frontal cortex, regions that have been strongly implicated as sites for negative-feedback regulation of CRH and AVP synthesis. When the differences in glucocorticoid receptor density are transiently reversed, so too are those in HPA responses to stress. Taken together, our findings indicate that the early postnatal environment alters the differentiation of hippocampal neurons. This effect involves an altered rate of glucocorticoid receptor gene expression, resulting in changes in the sensitivity of the system to the inhibitory effects of glucocorticoids on the synthesis of CRH and AVP in hypothalamic neurons. Changes in CRH and AVP levels, in turn, determine the responsivity of the axis to subsequent stressors; increased releasing factor production is associated with increased HPA responses to stress. Thus, the early environment can contribute substantially to the development of stable individual differences in HPA responsivity to stressful stimuli. These data provide examples of early environmental programming of neural systems. One major objective of our research is to understand how such programming occurs within the brain.

Mouse Dax1 expression is consistent with a role in sex determination as well as in adrenal and hypothalamus function.

Abstract: Duplications of a chromosome Xp21 locus DSS (dosage sensitive sex reversal) are associated with male to female sex reversal. An unusual member of the nuclear hormone receptor superfamily, DAX1, maps to the DSS critical region and is responsible for X-linked adrenal hypoplasia congenita. Here we describe the isolation of the mouse Dax1 gene and its pattern of expression during development. Expression was detected in the first stages of gonadal and adrenal differentiation and in the developing hypothalamus. Moreover, Dax1 expression is down-regulated coincident with overt differentiation in the testis, but persists in the developing ovary. Comparison of the predicted protein products of the human and mouse genes show that specific domains are evolving rapidly. Our results suggest a basis for adrenal insufficiency and hypogonadotropic hypogonadism in males affected by adrenal hypoplasia congenita and are consistent with a role for DAX1 in gonadal sex determination.

Identical origin of adrenal cortex and gonad revealed by expression profiles of Ad4BP/SF-1

Abstract: Background: Ad4BP/SF-1 was originally identified as a steroidogenic tissue-specific transcription factor. Recent gene disruption studies with the mammalian Ftz-F1 gene encoding Ad4BP/SF-1 clearly revealed the essential function of the factor for adrenal and gonadal differentiation. Results: In this study, we examined the early development of these tissues using Ad4BP/SF-1 as the marker. In rat foetuses of 11.5 days post-coitum (d.p.c.), a cell population designated adreno-genital primordium was firstly observed on symmetrical lines extending from the dorsal aorta to the dorsal coelomic epithelia of the primitive urogenital ridges. From 12.5 d.p.c., the rostral half of the adreno-genital primordium started to separate into two distinct cell populations. Judging from the distribution of primordial germ cells, the cell population on the dorsal aortal side is a primordium for the adrenal cortex whereas that on the coelomic epithelial side is for the gonads. At 13.5 d.p.c., these two primordia have separated completely. Conclusion: These observations clearly identified a novel adreno-genital primordium from which both the adrenal cortex and the gonads originate. An RT-PCR study conducted to detect adrenal- and gonad-specific mRNAs supported the above observations.

The zona reticularis is the site of biosynthesis of dehydroepiandrosterone and dehydroepiandrosterone sulfate in the adult human adrenal cortex resulting from its low expression of 3 beta-hydroxysteroid dehydrogenase

Abstract: Based on indirect evidence, it has often been assumed that the zona reticularis of the adult human adrenal cortex is the source of the adrenal androgens, dehydroepiandrosterone (DHEA) and DHEA sulfate (DHEAS), but direct tests of this concept have been few. Using the techniques of cell culture, Northern blotting, and RIA, we compared the properties of separated adult zonal cells to those of fetal zone cells, a cell type well known to secrete large amounts of DHEA(S) due to its low expression of 3 beta-hydroxysteroid dehydrogenase (3 beta HSD). In nine glands from donors of a wide age range, the zona fasciculata and zona reticularis were separated and dissociated, and the cells were placed in culture. After 5 days, serum was removed by a 24-h period in serum-free defined medium followed by a 24-h exposure to cAMP analogs, with the optional addition of insulin, also in serum-free medium. The separated fasciculata and reticularis cells showed large differences in the DHEA(S)/cortisol (F) production ratios from added pregnenolone precursor, consistent with the synthesis of only F and essentially no DHEA(S) by fasciculata cells and with the synthesis of mostly DHEA(S) with little or no F by both reticularis cells and fetal zone cells. The different patterns of steroidogenesis were accompanied by a much lower level of expression of type II 3 beta HSD in reticularis cells, similar to that in fetal zone cells. In contrast, other genes were similarly regulated in the two adult zones and in the fetal zone by both cAMP and insulin. The levels of messenger ribonucleic acids for 17 alpha-hydroxylase, cholesterol side-chain cleavage enzyme, 21-hydroxylase, and 11 beta-hydroxylase responded to cAMP and insulin in both reticularis cells and fetal zone cells in the same pattern as that previously established in fasciculata cells. The central role of the limited expression of 3 beta HSD in the DHEA(S)-synthesizing property of reticularis cells was established by inhibition of 3 beta HSD in fasciculata cells with trilostane, which caused them to increase their DHEA/F production ratio to a level exceeding even that in fetal zone cells. There did not appear to any age-related changes in gene expression that could account for the large age-related decline in DHEA(S) biosynthesis in humans in either reticularis or fasciculata cells. Thus, the most likely cause of the age-related decline in adrenal androgen biosynthesis is an age-related decline in the number of functional reticularis cells, without a major change in the differentiated properties of the zonal cells as a function of age.

Placental steroid hormone synthesis: unique features and unanswered questions.

Abstract: Despite the amazing diversity of placental architecture across species, a number of common elements can be found, including the ability of all placentae to synthesize and metabolize steroid hormones; the assignment of steroidogenic activities to specific trophoblast phenotypes; the use of novel mechanisms to control expression of steroidogenic enzyme genes, which differ from those employed in the adrenal cortex and gonads; and interactions with the maternal and fetal compartments encompassing supply of steroid hormone precursors as well as regulatory influences of maternal ovarian and pituitary hormones and fetal adrenal cortical steroids

Novel presence of luteinizing hormone/chorionic gonadotropin receptors in human adrenal glands.

Abstract: It has been well documented that a significant proportion of chronic anovulatory patients have elevated levels of dehydroepiandrosterone sulfate (DHEAS) and luteinizing hormone (LH) and normal levels of adrenocortiocotropic hormone (ACTH). We tested the hypothesis that the zones of human adrenal cortex that secrete DHEAS may contain LH/human chorionic gonadotropin (hCG) receptors. In situ hybridization showed the presence of hybridization signals representing LH/hCG receptor mRNA transcripts in the zona reticularis. Immunocytochemistry demonstrated that the zona reticularis also contained LH/hCG receptor protein. The receptor transcripts and receptor protein are also present in the deeper layer of the zona fasciculata which can also secrete DHEAS. Double immunostaining revealed that LH/hCG receptors are present in the same cells that contain cytochrome P450 side chain cleavage enzyme, suggesting that the receptor containing cells are steroidogenic. These findings may potentially explain higher DHEAS levels in chronic anovulatory women who have normal ACTH and elevated LH levels.

Insulin-like growth factors enhance steroidogenic enzyme and corticotropin receptor messenger ribonucleic acid levels and corticotropin steroidogenic responsiveness in cultured human adrenocortical cells.

Abstract: In several species, including the human fetus, insulin-like growth factors (IGF-I and IGF-II) have been reported to modulate adrenal steroidogenesis, thus contributing to adrenal cortical differentiation. In the present study, we examined the long term effects of IGF-I and -II on human adult adrenal fasciculata-reticularis cells cultured in a chemically defined medium and compared them to the effects of insulin, human GH, and ACTH. Treatment for 3 days with IGF-I or -II at nanomolar concentrations or with insulin at micromolar concentrations slightly increased the production of androstenedione, cortisol, and dehydroepiandrosterone about 1.5-fold over that by control cells. Moreover, the acute steroidogenic response to ACTH of cells pretreated with IGF-I, IGF-II, or insulin was 3- to 6-fold higher than that of control cells. For each hormone, these effects of IGF-I and -II were dose dependent between 0.1-26 nmol/L (1-200 ng/mL). The secretion of androstenedione was more potently stimulated than that of dehydroepiandrosterone and cortisol, and this effect was more clearly yielded by pretreatment with IGF-II than with IGF-I or insulin. Human GH had no effect on these cells. In cells treated with IGF-I or -II, the messenger ribonucleic acid (mRNA) levels of cytochrome P450 17 alpha-hydroxylase and of 3 beta-hydroxysteroid dehydrogenase were increased, and the abundance of ACTH receptor mRNA was also slightly enhanced, but the mRNA of cytochrome P450 cholesterol side-chain cleavage enzyme was unchanged. In conclusion, IGFs enhance the steroidogenesis and ACTH responsiveness of human adrenocortical cells in culture. We speculate, that by this mechanism, IGFs may contribute to clinical states with hyperandrogenemia.

Adrenal incidentalomas: a manifestation of the metabolic syndrome?

Abstract: Recent evidence suggests that insulin is mitogenic on the adrenal cortex and stimulates adrenocortical tumor formation. We, investigated whether hyperinsulinemia is present in 13 patients with incidentally detected adrenal tumors. Patients with adrenal incidentalomas were obese (mean BMI 29.7 +/- 1.2 kg/m2, normal < 25; % body fat 35 +/- 1.5%, normal < 30%) with increased abdominal fat deposition (waist to hip ratio 0.92 +/- 0.02, normal < 0.85). All 13 patients were insulin resistant. Five had NIDDM, of the remaining patients 5 had fasting insulin concentrations above 15 microE/ml, and all 8 patients had elevated insulin concentrations after 75 g of glucose orally. To further investigate the potential role of insulin we examined its effects on the NCI-h295 cell line. Insulin (1-100 micrograms/ml) stimulated cell proliferation in a time and dose-dependent matter without affecting cortisol synthesis. At this concentrations insulin was equally potent to IGF I (10-80 ng/ml) or IGF II (10-100 ng/ml). We conclude that the majority of patients with adrenal incidentalomas are insulin-resistant/hyperinsulinemic. Insulin stimulates adrenal cancer cell lines in vitro. We propose that adrenal incidentalomas are a newly recognized manifestation of the metabolic syndrome comparable to insulin-mediated stimulation of the ovary in the polycystic ovary syndrome.

Endothelin adrenocortical secretagogue effect is mediated by the B receptor in rats.

Abstract: We investigated the gene expression and localization of endothelin-1 (ET-1) receptor subtypes ET(A) and ET(B) in the rat adrenal cortex as well as their involvement in the corticosteroid secretagogue effect of ET-1 in vitro. Reverse transcription-polymerase chain reaction with primers specific for ET(A) and ET(B) cDNAs demonstrated the expression of both receptor genes in homogenates of adrenocortical tissue. However, in isolated zona glomerulosa and zona fasciculata cells, only ET(B) mRNA was detected. Autoradiographic examination of the selective displacement of 125I-ET-1 binding by BQ-123 and BQ-788 (specific ligands for ET(A) and ET(B), respectively) indicated that zona glomerulosa possesses both ET(A) and ET(B), whereas zona fasciculata is exclusively provided with ET(B). ET-1 enhanced in a concentration-dependent manner aldosterone and corticosterone secretions of dispersed zona glomerulosa and zona fasciculata cells, respectively. The ET(B) antagonist BQ-788 markedly reduced the secretory response of zona glomerulosa cells and completely suppressed that of zona fasciculata cells, whereas the ET(A) antagonist BQ-123 was ineffective. These findings indicate that in the rat, the adrenocortical secretagogue action of ET-1 is mediated by the ET(B) receptor subtype and that the ET(A) receptor is not directly involved in such an effect.

Variegated expression of a mouse steroid 21-hydroxylase/beta- galactosidase transgene suggests centripetal migration of adrenocortical cells.

Abstract: 5'-Flanking sequences (6.4 kb) of the mouse steroid 21-hyrodxylase (21-OHase) A gene linked to a LacZ reporter gene directed appropriate cell-specific expression in cultured Y1 adrenocortical tumor cells and in the adrenal cortex of transgenic mice. The transgene expression initiated at the same stage of adrenal development as the endogenous 21-OHase gene (embryonic day 11.5). Although the endogenous 21-OHase gene is expressed throughout the adrenal cortex, the 21-OHase/beta-gal transgene showed a strikingly variegated pattern of adrenocortical expression in all 10 transgene-expressing mouse lines examined. This presents as radial stripes of beta-gal staining transcending the classical zonal structure of the adrenal cortex but paralleling the columnar arrangement of cells of the zona fasciculata on the centripetal organization of the adrenocortical blood supply. To the extent that the variegated pattern of 21-OHase/beta-gal transgene expression depicts adrenocortical cell lineage, these results suggest th...

Gonadectomy permits adrenocortical tumorigenesis in mice transgenic for the mouse inhibin alpha-subunit promoter/simian virus 40 T-antigen fusion gene: evidence for negative autoregulation of the inhibin alpha-subunit gene.

Abstract: We have developed a transgenic (TG) mouse model for gonadal tumorigenesis expressing the Simian virus 40 T-antigen (Tag) under the mouse inhibin alpha-subunit promoter. Gonadal tumors appear with 100% penetrance by the age of 5-8 months in the TG mice. When 1-month-old TG mice were gonadectomized, adrenal gland tumors were observed in each animal (12 females, 11 males) at the age of 6-8 months. No adrenal tumors were detected in gonadectomized non-TG mice (nine females, nine males) or in the intact TG mice (n > 100). The tumors appeared to originate from the X zone of the adrenal cortex. The TG mice with adrenocortical tumors had elevated serum levels of progesterone, estradiol, and immunoreactive inhibin (including dimeric forms), but corticosterone secretion was reduced. The lack of adrenal tumors in intact TG mice suggested that the tumorous gonads secrete factor(s) inhibiting adrenal tumorigenesis. As a candidate molecule, we studied the effects of inhibin, which was high in the serum of control femal...

Evidence for sympathetic and adrenal involvement in the immunomodulatory effects of acute morphine treatment in rats.

Abstract: The present study examined the involvement of the sympathetic nervous system and the hypothalamic-pituitary-adrenal axis in the immunomodulatory effects of acute morphine treatment in rats. Chlorisondamine, a ganglionic blocker, was used to assess the involvement of sympathetic and sympathoadrenal activity. Adrenalectomized rats were used to assess the involvement of the adrenal cortex, which is regulated primarily by hypothalamic-pituitary-adrenal axis activity, and the adrenal medulla, which is regulated primarily by sympathetic activity. The results showed that both chlorisondamine and adrenalectomy antagonize morphine's suppressive effects on the proliferative response of splenic lymphocytes to concanavalin A (Con A), lipopolysaccharide or ionomycin/phorbol myristate acetate. Chlorisondamine, but not adrenalectomy, antagonizes morphine's suppressive effects on phytohemagglutinin (PHA)-stimulated proliferation of splenic lymphocytes and interferon-gamma production by stimulated splenocytes. Adrenalectomy, but not chlorisondamine, blocks morphine's suppressive effects on the proliferative response of blood lymphocytes to Con A or PHA. Neither chlorisondamine nor adrenalectomy alters morphine's suppressive effect on splenic natural killer cell cytotoxicity. Collectively, these results suggest that sympathoadrenal activity is involved in the suppressive effects of acute morphine treatment on the proliferative response of splenic T and B cells to Con A, lipopolysaccharide or ionomycin/phorbol myristate acetate. Morphine's suppressive effects on the proliferative response of splenic T cells to PHA and the production of interferon-gamma by stimulated splenocytes also involve sympathetic activity, but not sympathoadrenal activity. The results suggest further that morphine's suppressive effects on the proliferative response of blood T cells to Con A or PHA do not involve sympathetic activity, but rather adrenocortical activity. Neither sympathetic nor adrenocortical activity appears to be involved in morphine's suppressive effect on splenic natural killer cell cytotoxicity.

Functional aspects of the effect of prolactin (PRL) on adrenal steroidogenesis and distribution of the PRL receptor in the human adrenal gland.

Abstract: Hyperprolactinemia is one of the most common disorders in endocrinology. A role for PRL on the human adrenal gland has been postulated in various clinical studies. We have demonstrated for the first time the expression of the PRL receptor in the human adrenal gland and in human adrenal primary cell cultures using PCR and immunohistochemical methods. Using immunostaining, we could detect the PRL receptor in all three zones of the adrenal cortex. Only weak staining was observed in the adrenal medulla. The influence of PRL on the secretion of cortisol, aldosterone, and androgens in human primary cell cultures was investigated. After stimulation with PRL (10(-7) mol/L), we measured increased concentrations of cortisol (155 +/- 9.8%; P < 0.005%), aldosterone (122 +/- 3.7%; P < 0.005), and dehydroepiandrosterone (121 +/- 8.6%; P < 0.05) in the cell supernatant. PRL did not affect the expression of messenger ribonucleic acid of cytochrome P45017 alpha in human adrenal cell cultures. In conclusion, we found the PRL receptor in the human adrenal gland. We postulate that PRL has a direct effect on adrenal steroidogenesis, thereby regulating adrenal function, which may be of particular relevance in clinical disorders with hyperprolactinemia.

Molecular and functional characterization of V1b vasopressin receptor in rat adrenal medulla

Abstract: In rat adrenal medulla, PCR experiments reveal the expression of messenger RNA encoding the gene for the V1b vasopressin receptor. Complementary DNA amplified sequences corresponded to the cloned rat pituitary V1b vasopressin receptor. Video microscopy experiments performed on fura-2-loaded adrenal medullary or adrenal glomerulosa cell primary cultures showed that vasopressin dose dependently mobilized intracellular calcium, suggesting that functional vasopressin receptors are expressed in these tissues. The use of d[D-3-Pal]vasopressin, a specific V1b vasopressin agonist, and SR 49059, a specific V1b vasopressin antagonist, revealed that V1b receptors are exclusively expressed in adrenal medulla. Using an indirect immunological approach (plasma membrane localization of dopamine-beta-hydroxylase), we demonstrated that stimulation of rat adrenal medulla V1b receptor leads to catecholamine secretion. More interestingly, PCR experiments performed on rat adrenal medulla RNA revealed that the arginine vasopres...

Expression Patterns of Class I and Class IV Alcohol Dehydrogenase Genes in Developing Epithelia Suggest a Role for Alcohol Dehydrogenase in Local Retinoic Acid Synthesis

Abstract: Vitamin A (retinol) regulates embryonic development and adult epithelial function via metabolism to retinoic acid, a pleiotrophic regulator of gene expression. Retinoic acid is synthesized locally and functions in an autocrine or paracrine fashion, but the enzymes involved remain obscure. Alcohol dehydrogenase (ADH) isozymes capable of metabolizing retinol include class I and class IV ADHs, with class III ADH unable to perform this function. ADHs also metabolize ethanol, and high levels of ethanol inhibit retinol metabolism, suggesting a possible mode of action for some of the medical complications of alcoholism. To explore whether any ADH isozymes are linked to retinoic acid synthesis, herein we have examined the expression patterns of all known classes of ADH in mouse embryonic and adult tissues, and also measured retinoic acid levels. Using in situ hybridization, class I ADH mRNA was localized in the embryo to the epithelia of the genitourinary tract, intestinal tract, adrenal gland, liver, conjunctival sac, epidermis, nasal epithelium, and lung, plus in the adult to epithelia within the testis, epididymis, uterus, kidney, intestine, adrenal cortex, and liver. Class IV ADH mRNA was localized in the embryo to the adrenal gland and nasal epithelium, plus in the adult to the epithelia of the esophagus, stomach, testis, epididymis, epidermis, and adrenal cortex. Class III ADH mRNA, in contrast, was present at low levels and not highly localized in the embryonic and adult tissues examined. We detected significant retinoic acid levels in the fetal kidney, fetal/adult intestine and adrenal gland, as well as the adult liver, lung, testis, epididymis, and uterus--all sites of class I and/or class IV ADH gene expression. These findings indicate that the expression patterns of class I ADH and class IV ADH, but not class III ADH, are consistent with a function in local retinoic acid synthesis needed for the development and maintenance of many specialized epithelial tissues.

Localization of ACTH receptor mRNA by in situ hybridization in mouse adrenal gland

Abstract: Stimulation of steroidogenesis in the adrenal cortex is a major physiological action of adrenocorticotropic hormone (ACTH). This action is presumed to be mediated by the ACTH receptor and is functionally connected with the hypothalamus-pituitary-adrenal axis. To gain information concerning the distribution of the ACTH receptor in this axis, we examined mRNA for the ACTH receptor in the adrenal gland, pituitary and hypothalamus of the mouse, by using in situ hybridization. The Y-1 mouse adrenal tumour cell line was also examined. The specific hybridization signal for ACTH receptor mRNA was uniformly distributed in the Y-1 cells, although the level of expression was low. The adrenal cortex showed a strong signal for the ACTH receptor mRNA in both the zona fasciculata and the zona glomerulosa, sites that are involved in the mediation of the action of ACTH on the synthesis and release of glucocorticoids and aldosterone. In the zona reticularis of the cortex, a small number of cells showed positive hybridization signals. Moreover, a few scattered cells were positive in the adrenal medulla. In contrast, the hybridization results for both the hypothalamus and the pituitary proved to be negative. These results indicate that the mouse ACTH receptor is a peripheral receptor that is exclusively located in the adrenal gland.

Regulation of the hypothalamo-pituitary-adrenocortical axis in fetal sheep

Abstract: Development of the fetal hypothalamo-pituitary-adrenal (HPA) axis is required for normal fetal life and subsequent neonatal health. Activation of the fetal pituitary gland results in the synthesis and release of glucocorticoids from the adrenal cortex. Glucocorticoids promote maturation of several organ systems, are important in responses of the fetus to stress, and are involved in the initiation of parturition in several species. The expression of hypothalamic and pituitary genes associated with HPA function is apparent early in gestation in fetal sheep, although the endocrine changes associated with maturation and parturition do not occur until the last fifth of gestation. In this connection, the fetal HPA axis can be activated by treatment with hypophysiotrophic factors or moderate stress throughout gestation. This review focuses on the development of neuroendocrine mechanisms controlling HPA function during fetal life.

Pituitary adenylate-cyclase activating peptide enhances aldosterone secretion of human adrenal gland: evidence for an indirect mechanism, probably involving the local release of catecholamines.

Abstract: Evidence is accumulating that the adrenal medulla exerts a paracrine control on the secretory activity of the cortex by releasing catecholamines and several regulatory peptides. Pituitary adenylate-cyclase activating peptide (PACAP) is contained in the adrenal medulla of several mammalian species and in human pheochromocytomas. Thus, we investigated whether PACAP exerts a modulatory action on steroid secretion by the human adrenal cortex in vitro. Adrenal slices (including both capsule and medulla) and dispersed adrenocortical cells (obtained from the gland tail deprived of medulla) were employed. Both adrenal preparations secreted aldosterone (ALDO) and cortisol in response to 10 nmol/L ACTH. PACAP (10 nmol/L) was found to enhance basal ALDO production by adrenal slices, but not by dispersed cells. PACAP was ineffective on cortisol secretion of both preparations. Adrenal slices displayed a marked ALDO, but not cortisol, secretory response to 100 nmol/L isoprenaline or noradrenaline. l-Alprenolol (1 mumol...

Divergent prolactin and pituitary-adrenal activity in rats selectively bred for different dopamine responsiveness

Abstract: The present study explores the significance of brain dopamine phenotype for individual variation in the neuroendocrine stress response of the rat. For this purpose, we used two Wistar rat lines previously selected for high or low responsiveness of the dopamine system to apomorphine using the gnawing response as the selection criterion. Systemic administration of the drug evoked in apomorphine-susceptible (apo-sus) rats a vigorous gnawing response, whereas apomorphine-unsusceptible (apo-unsus) rats did not gnaw under these conditions. These two rat lines represent individuals displaying extreme differences in gnawing behavior that otherwise coexist in a normal Wistar population. In this study basal and stress-induced hypothalamic-pituitary-adrenal activity and PRL release were measured in chronically cannulated, freely moving rats that endured a conditioned emotional response. Tyrosine hydroxylase messenger RNA (mRNA), corticosteroid receptor mRNA, and in vivo retention of [3H]corticosterone were measured in rat brain sections using in situ hybridization and in vivo autoradiography. The result show that 1) apo-sus rats had a markedly reduced PRL response to stress compared to apo-unsus animals, whereas basal levels were not significantly different. A12 dopaminergic neurons in the arcuate nucleus expressed significantly higher levels of tyrosine hydroxylase mRNA in apo-sus rats, suggesting that the reduced stress-induced PRL release could be due to an increased inhibitory control by dopaminergic neurons; 2) in apo-sus rats, stress resulted in a sustained elevation of ACTH and free corticosterone levels, whereas the total corticosterone levels were not different between the two rat lines; 3) under basal morning conditions, apo-sus rats had significantly higher plasma ACTH, but, in contrast, lower free corticosterone than apo-unsus rats; total plasma corticosterone levels were not different; 4) the basal evening ACTH level was elevated in apo-sus rats; after removal of the adrenals in the morning, this increased ACTH level in apo-sus rats persisted into the afternoon 6 h postadrenalectomy; and 5) hippocampal mineralocorticoid (MR), but not glucocorticoid (GR), receptor capacity for the ligand comparable between the groups; the MR of apo-sus rats displayed an increased retention of [3H]corticosterone in all hippocampal cell fields measured 24 h adrenalectomy; MR and GR mRNA in hippocampus as well as GR mRNA in the paraventricular nucleus were not significantly different in the two rat lines. In conclusion, the data suggest a common genetic background for individual variation in stress responsiveness and dopamine phenotype. High dopamine reactivity is linked to a reduced PRL and an increased ACTH response after stress. These high dopamine responders display a hyporesponsive adrenal cortex and corticosteroid feedback resistance associated with altered brain corticosteroid receptor properties.

Human adrenal cells express tumor necrosis factor-alpha messenger ribonucleic acid: evidence for paracrine control of adrenal function

Abstract: Tumor necrosis factor (TNF) is gaining increasing importance in clinical medicine. It plays a role in the interaction of the immune system with the hypothalamic-pituitary-adrenal axis. In the present study various morphological methods, including immunohistochemistry, electron microscopy, and in situ hybridization were applied to characterize the localization and distribution of TNF in the human adrenal gland. Double immunostaining revealed an astonishing degree of intermingling of steroid-producing cells and chromaffin cells. Macrophages could be found in all regions of the adrenal gland, but particularly in the transition zone of cortex and medulla. The steroid-producing cells of the inner zone of the cortex express major histocompatibility complex class II molecules. On the ultrastructural level, immune cells, steroid cells, and catecholamine-producing cells were found in direct contact. The combination of immunohistochemistry and in situ hybridization was optimally suited to define the exact cellular source of TNF in the human adrenal. TNF is produced in macrophages, but above all in 17 alpha-hydroxylase-positive cells (steroid-producing cells) in the zona reticularis and medulla. No signal was found in chromaffin cells. TNF may induce major histocompatibility complex class II in human adrenal gland in a paracrine or autocrine manner. It is concluded that TNF may have an important role in normal human adrenal physiology.

Presence of renin within intramitochondrial dense bodies of the rat adrenal cortex.

Abstract: It has been suggested that tissue-specific expression of the genes of the renin-angiotensin system (RAS) leads to local generation of angiotensin (ANG) II with specific physiological implications. We demonstrate here that an intracellular RAS exists in adrenal glomerulosa cells; 60 h after bilateral nephrectomy and hemodialysis, renin and prorenin were eliminated from the circulation, whereas intra-adrenal renin content increased (control rats: 2 +/- 0.5 ng ANG I.mg-1.h-1; anephric rats: 25 +/- 2). Thus renin is produced locally within adrenal cells. We obtained immunocytochemical and biochemical evidence for the presence of renin within intramitochondrial dense bodies of the zona glomerulosa. After nephrectomy, dense bodies increased in number, size, and renin content (control rats: 2.5 +/- 0.7 ngANGI.mg-1.h-1; anephric rats: 43 +/- 7). Angiotensin-converting enzyme (ACE) was also present within mitochondria and their dense bodies. In addition, in adrenal cortex of anephric rats, giant dense bodies were observed, which contain renin and strongly react with an anti-angiotensinogen antibody. The localization of renin, ACE, and angiotensinogen at these sites provides new evidence for the existence of an intracellular adrenal RAS.

Differential control of 17 alpha-hydroxylase and 3 beta-hydroxysteroid dehydrogenase expression in human adrenocortical H295R cells.

Abstract: Previous studies of human adrenocortical cells have given inconsistent findings concerning the effects of angiotensin II (AII) alone or in combination with activators of the protein kinase A-signaling pathway on expression of cholesterol side-chain cleavage cytochrome P450 (P450scc), 17 alpha-hydroxylase cytochrome P450 (P450c17), and 3 beta-hydroxysteroid dehydrogenase (3 beta-HSD), as well as the corresponding effects on adrenocortical cell steroid secretory products. We have used the human adrenocortical carcinoma H295R cell to evaluate further this question and determine the role of protein kinase C in each of these responses to AII. Treatment with AII alone (10 nmol/L, 48 h) resulted in a significant increase in cortisol production (1.8-fold), as well as a much greater effect on aldosterone production. This increased formation of 17 alpha-hydroxysteroids was accompanied by increased expression of P450c17 as determined at the level of messenger RNA (mRNA) and enzyme activity. Similar increases in expr...