Long-term studies on compensatory adrenal growth in the female hamster induced by unilateral adrenalectomy

The study was designed to explain the cellular aspects of compensatory adrenal growth in the female hamster in the course of long-term unilateral adrenalectomy. Animals were autopsied 3, 6, 9, 18 and 36 days after unilateral adrenalectomy. Removal of the left adrenal gland within 36 days did not change both the absolute and relative adrenal gland weight of the female hamster. Also the volume of particular adrenocortical zones and the number of parenchymal cells in the zones and in the entire cortex were unchanged in unilaterally adrenalectomised hamsters. Moreover, in the course of experiments the volumes of the glomerulosa and fasciculata cells were unchanged in relation to the control group. On the contrary, a marked increase in the volume of the zona reticularis cells was observed, with the highest rate of increase within the first 9 days after unilateral adrenalectomy.     

A correlated stereological and functional studies on the long-term effects of ACTH on rat adrenal cortex

The aim of the study was to investigate the effect of prolonged ACTH administration on quantitative structural changes of the rat adrenal cortex and on function of its cells with particular emphasis on correlation of the results of biochemical estimations with stereologic parameters. Daily injections of 20 micrograms ACTH (Synacthen, Depot) for 35 days results in a marked enlargement of the cortex due to an increase in the volume of all the zones. This increase depends upon hypertrophy and hyperplasia of parenchymal cells. At day 21 of experiment the number of parenchymal cells markedly decreased if compared with day 14, the lost of cells being observed mainly in the zona reticularis. Prolonged ACTH treatment only insignificantly changed serum corticosterone concentration and--if calculated per mg of adrenal weight--did not change adrenal corticosterone concentration and 11 beta-hydroxylase activity and decreased corticosterone output by adrenal homogenate. If expressed per adrenocortical cell or per pair of glands, ACTH increased corticosterone concentration and 11 beta-hydroxylase activity while the drop in corticosterone output occurred only at days 28 and 35 of experiment. The striking differences in and among various functional parameters depicting adrenal steroidogenesis show for necessity--in case of long-term experiments leading to hypertrophy or atrophy of the gland--of using coupled stereologic and biochemical techniques which better evaluate the cytophysiological state of adrenocortical cells.     

Low-density lipoprotein receptor activity in the guinea pig adrenal cortex. II. Zonal response to aminoglutethimide and 17 alpha-ethinylestradiol

Low-density lipoprotein (LDL) receptor activity and the concentration of cholesterol were measured in the outer (glomerulosa/fasciculata) and inner (reticularis) zones of the adrenal cortex of the guinea pig to examine the relation between cholesterol content and LDL receptor activity. While the concentration of cholesterol was 2-3-times higher in the outer cortical zone, the maximum high-affinity binding capacity for LDL was essentially the same for the two zones, or slightly higher for the inner zone. Adrenocorticotrophic hormone (ACTH) caused a significant increase in LDL receptor activity only in the outer zone, but led to a reduction in the cholesterol content in both adrenocortical zones. The treatment of animals with 17 alpha-ethinyl-estradiol also resulted in a reduction of cholesterol in both adrenocortical zones, but an increase in LDL receptor number only in the outer zone. The latter effect was partially reversed by the administration of dexamethasone. Aminoglutethimide, which was used in a dose that did not block steroidogenesis but did block the hydrolysis of cholesteryl esters in response to ACTH, did not prevent the ACTH-induced increase in LDL receptor number in the outer zone. Thus, the number of LDL receptors was increased in the zona fasciculata by ACTH in the absence of a reduction in cellular cholesterol content, while the number of LDL receptors in the zona reticularis was not increased by ACTH even in the face of a reduction in cellular cholesterol. Exclusive of the experiments employing aminoglutethimide, when the cellular cholesterol content was plotted against LDL binding activity, an excellent inverse correlation was revealed for the zona fasciculata, but essentially no correlation was noted for the zona reticularis. It is concluded that the outer and inner cortical zones of the guinea pig adrenal are quite distinct in the nature of their LDL receptor activity and regulation: the LDL receptor of the outer zone appears to function in a way similar to what has been reported for the whole adrenal cortex of other species in that receptor number correlates with tissue cholesterol content and is primarily regulated by ACTH; the LDL receptor number of the inner zone, however, does not correlate with tissue cholesterol content and is apparently not regulated by 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)     

Sex differences in adrenocortical structure and function

Summary Adrenal glands of adult male hamsters are larger and secrete more cortisol than those of females. Stereology was therefore used to study zonal and cellular aspects of development of the adrenal cortex of male and female hamsters. Adrenal glands were studied at weekly intervals from day 21 to day 77 of postnatal ontogenesis. Within this period, body weight did not differ significantly between the sexes. During development, absolute and relative adrenal weights were higher in males; their zona glomerulosa (ZG), zona fasciculata (ZF) and zona reticularis (ZR) become markedly larger than those in females. No marked changes in the volume of individual ZG cells occurred although ZF cells and ZR cells become larger in male than female animals. The total number of adrenocortical cells increased within the period studied, a greater increase being observed in ZG and ZF in males. No distinct sex difference was observed in the number of ZR cells throughout development. From day 56 of postnatal life the adrenal cortex of male hamster contained more parenchymal cells than the female gland. These results thus indicate that sex differences in hamster adrenal cortex depend upon changes in number and size of parenchymal cells.Supported in part by a grant from the Committee of Zoology, Polish Academy of Sciences     

Synthetic modified N-POMC1–28 controls in vivo proliferation and blocks apoptosis in rat adrenal cortex

The identity of the pro-opiomelanocortin (POMC)-derived mitogen in the adrenal cortex has been historically controversial. We have used well-established in vivo models, viz., hypophysectomized (Hyp) or dexamethasone (Dex)-treated rats, to study the effect of the synthetic modified peptide N-terminal POMC (N-POMC_1–28) on DNA synthesis in the adrenal cortex, as assessed by BrdU incorporation and compared with adrenocorticotropic hormone (ACTH). We evaluated the importance of disulfide bridges on proliferation by employing N-POMC_1–28 without disulfide bridges and with methionines replacing cysteines. Acute administration of synthetic modified N-POMC_1–28 distinctly increased DNA synthesis in the zona glomerulosa and zona fasciculata, but not in the zona reticularis in Hyp rats, whereas in Dex-treated rats, this peptide was effective in all adrenal zones. ACTH administration led to an increase of BrdU-positive cells in all adrenal zones irrespective of the depletion of Hyp or Dex-POMC peptides. The use of the ACTH antagonist, ACTH_7–38, confirmed the direct participation of ACTH in proliferation. Two different approaches to measure apoptosis revealed that both peptides similarly exerted a protective effect on all adrenocortical zones, blocking the apoptotic cell death induced by hypophysectomy. Thus, ACTH_1–39 and N-POMC_1–28 have similar actions suggesting that the disulfide bridges are important but not essential. Both peptides seem to be important factors determining adrenocortical cell survival throughout the adrenal cortex, reinforcing the idea that each zone can be renewed from within itself.     

Proliferation and distribution of adrenocortical cells in the gland of ACTH- or dexamethasone-treated rats

The effects of prolonged (7-day) ACTH and dexamethasone administrations on rat adrenocortical-cell turnover have been investigated by combined stereological and metaphase-arrest techniques. ACTH was found to increase the number of parenchymal cells in each adrenal zone; however, ACTH altered the cell distribution in the cortex, lowering their percentage in the zona glomerulosa (ZG) and zona fasciculata (ZF) and enhancing it in the zona reticularis (ZR). The cell birth-rate was markedly raised by ACTH exclusively in ZG and ZF. Dexamethasone notably decreased the number of ZF and ZR cells, without altering that of ZG cells. Moreover, dexamethasone increased the percentage of parenchymal cells in ZG and ZF, and lowered it in ZR. In the adrenal cortices of dexamethasone-administered animals, metaphases were virtually absent. These data indicate that ACTH increases the cell birthrate in ZG and possibly ZF, and enhances the centripetal migration of newly-formed cells and their accumulation in ZR. Dexamethasone inhibits both proliferation of adrenocortical cells in the outer cortical layers and their centripetal migration into ZR. Moreover, it appears to cause parenchymal-cell loss in the inner adrenocortical layers.     

Immunohistochemical localization of adrenal ferredoxin and distribution of adrenal ferredoxin and cytochrome P-450 in the rat adrenal

Adrenal ferredoxin, the iron-sulfur protein associated with cytochromes P-450 in adrenocortical mitochondria, has been localized immunohistochemically at the light microscopic level in rat adrenals by employing rabbit antiserum to bovine adrenal ferredoxin in both an unlabeled antibody peroxidase-antiperoxidase method and an indirect fluorescent antibody method. When sections of rat adrenals were exposed to the adrenal ferredoxin antiserum in both procedures, positive staining for adrenal ferredoxin was observed in parenchymal cells of the three cortical zones but not in medullary chromaffin cells. Marked differences in the intensity of staining, however, where observed among the three cortical zones: the most intense staining being found in the zona fasciculata, less in the zona reticularis, and least in the zona glomerulosa. Furthermore, differences in staining intensity were also observed among cells within both the zona fasciculata and the zona reticularis. In agreement with these immunohistochemical observations, determinations of adrenal ferredoxin contents by electron paramagnetic resonance (EPR) spectrometry in homogenates prepared from capsular and decapsulated rat adrenals revealed that the concentration of adrenal ferredoxin in the zona glomerulosa was lower than that in the zona fasciculata-reticularis. Similar results were obtained when the contents of cytochrome P-450 were determined in capsular adn decapsulated rat adrenal homogenates. These observations indicate that adrenal ferrodoxin and cytochrome P-450 are not distributed uniformly throughout the rat adrenal cortex.     

Studies on cytogenesis in adult rat adrenal cortex: circadian and zonal variations and their modulation by adrenocorticotropic hormone

Circadian rhythms and zonal variations in the cell proliferation of adult rat adrenal cortex were studied by following the cells in the DNA-synthesizing stage (S-phase) as assessed by 5-bromo-2'-deoxyuridine incorporation into the cell-nuclei and/or by visualizing proliferating cell nuclear antigen. The S-phase cells were observed throughout the day in two regions of the adrenal cortex: (i) a region from the inner half of the zona glomerulosa to near the outer margin of the zona fasciculata, and (ii) the outer one-fourth portion of the zona fasciculata. Very little change in number was observed in the former region between day and night, while a burst of cell proliferation occurred in early morning at 3-4 a.m. in the latter region. A prominent rise in the plasma adrenocorticotropic hormone (ACTH) concentration preceded the burst of cell proliferation by about 4 h. Upon raising the plasma ACTH concentration by administration of ACTH or metyrapone, prominent cell proliferation also occurred in the same portion of the zona fasciculata 4-6 h after the provoked ACTH surge. Thus at least two sites in rat adrenal cortex are responsible for cytogenesis in this endocrine organ, and respond differentially to day/night cycles and circulating ACTH levels.     

Immunohistochemical localization of adrenal ferredoxin in bovine adrenal cortex.

Adrenal ferredoxin, the iron-sulfur protein associated with cytochrome P-450 in adrenocortical mitochondria, has been localized at the light microscopic level in bovine adrenal cortex. Localization was achieved through the use of rabbit antiserum to bovine adrenal ferrodoxin in an unlabeled antibody peroxidase-antiperoxidase method. When sections of bovine adrenal glands were exposed to the adrenal ferredoxin antiserum, intense staining was observed in parenchymal cells of the three cortical zones. Staining for adrenal ferredoxin was not detected in the medullary chromaffin cells. The presence of adrenal ferredoxin in the three cortical zones was verified by electron paramagnetic resonance spectrometry. These determinations also revealed that while the zona fasciculata and the zona reticularis contained approximately equal concentrations of adrenal ferredoxin, the concentration of the iron-sulfur protein in the zona glomerulosa was considerably lower. Similar results were obtained when the levels of cytochrome P-450 were determined in the three cortical zones. These results represent the first immunohistochemical localization within an intact tissue or cell of any component of an NADPH-dependent electron transport sequence which is responsible for the reduction of cytochrome P-450.     

Sex differences in adrenocortical structure and function

Summary Adrenal glands of adult female rats are heavier than the glands of corresponding male rats. Postpubertal orchiectomy increases the adrenal weight, an effect restored by testosterone replacement. Under the same conditions ovariectomy of 8 weeks duration does not change the adrenal weight while estradiol replacement enhances the relative adrenal weight.Karyometric studies have shown that nuclei in the female zona fasciculata cells are larger (app. 18%) than those of the male. Similar but only slight differences (2%) were observed in the zona reticularis. Orchiectomy results in enlargement of cell nuclei within all zones of the adrenal cortex; testosterone replacement has the opposite effect. Ovariectomy of 8 weeks duration slightly enhances the volume of nuclei of the zona glomerulosa cells, has no effect on the nuclei of the zona fasciculata and reduces the volume of nuclei in the zona reticularis. Estradiol replacement reduces the volume of nuclei of the zona glomerulosa cells but increases nuclear volume in the zona fasciculata and in the zona reticularis.Thus testosterone has an inhibitory effect on the adrenal cortex of the rat while the physiologic effect of estradiol on the morphology of this gland, particularly on the zona fasciculata cells is rather dubious.The author wishes to thank Mrs. B. Westerska and Miss K. Siejak for excellent technical assistance.This research was supported in part by a grant from the Zoological Committee, 2nd Department, Polish Academy of Sciences.This paper is dedicated to the memory of late Kazimierz Mietkiewski, M.D., Ph.D. whose encouragements and suggestions were most stimulating for my work.     

Strain differences in rabbit adrenocortical structure and morphological evidence of corticomedullary communication

Interstrain differences in the structure of the mouse and rat adrenal cortex are well known, but related data on rabbits are not available. This study was planned to demonstrate possible strain differences in rabbit adrenal morphology and morphological evidence of a communication between cortex and medulla. For this purpose, the zonation of the adrenal cortex of intact mature male and female rabbits of different strains (New Zealand, Chinchilla and California) were compared using morphometry and the corticomedullary junction was evaluated for close relationship. Marked intersex and interstrain differences were found in the adrenocortical zonation. Female rabbits had larger adrenocortical zones than corresponding males. The rabbits of Chinchilla and California strains had the largest cortical sizes. This difference depended largely upon the higher thickness of the zona fasciculata. Whereas, there were no significant strain differences in the thickness of zona glomerulosa and zona reticularis. Furthermore, examination of corticomedullary junction showed that cortex and medulla were interwoven. Single and small accumulations of cortical cells were spread throughout the medulla. Our morphological data showed the presence of significant interstrain differences in the adrenocortical zonation in the rabbits and provide evidence for a possible paracrine interaction between medullary and cortical cells.     

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.     

The undifferentiated cell zone is a stem cell zone in adult rat adrenal cortex

The adrenal cortex of mammals has been known to consist of three morphologically and functionally distinct zones, i.e. the zona glomerulosa (zG), the zona fasciculata (zF) and the zona reticularis (zR), each of which secretes a specific corticosteroid different from those produced by the other two zones. We found previously, however, that an additional zone existed between zG and zF of adult rat adrenal cortex and that the cells in that zone were in a functionally undifferentiated state as an adrenocortical cell [Endocrinology 135, (1994) 431]: they were incapable of synthesizing highly active forms of corticosteroids, such as aldosterone and corticosterone, although they could produce their precursors. Hence, we named the zone as the undifferentiated cell zone (zU) of the adrenal cortex. Here we show that zU and its surroundings, i.e. the innermost portion of zG and the outermost portion of zF are the sites for cell replication in adult rat adrenal cortex and that the cells raised there migrate to other regions. Such cell replications in this region occur regardless of physiological conditions, such as the rise and fall of hormonal stimuli and circadian fluctuation of adrenocortical activities. On the bases of these and other findings previously described, we propose that zU is the stem cell zone of the adult rat adrenal cortex. Our recent success in isolating novel cell lines, which display an undifferentiated phenotype similar to that of zU cells, could facilitate the exploration of molecular mechanisms for the differentiation and development of the adrenocortical cells.     

Sex differences in adrenocortical structure and function. XI

Summary Adrenal glands from orchectomized and ovariectomized rats, with and without replacement therapy, and also from intact controls of both sexes, were examined by autoradiography with ³H-thymidine. The labelling index after 1 or 2 nucleoside injections was higher in the zona glomerulosa of females than in male rats, while no differences were found in the fascicular and reticular zones. Orchiectomy increased the labelling index in the fascicular and reticular zones, an effect prevented by testosterone. Ovariectomy did not change the labelling index, while estradiol lowered it in the zona glomerulosa. Duration of the S phase was longer in the zona fasciculata cells of males than in females. Both orchiectomy and testosterone shortened this phase in cells of the zona fasciculata and zona reticularis. Ovariectomy prolonged the S phase in the zona fasciculata and shortened this time in the reticular zone, an effect reversed by estradiol.In the glomerular and fascicular zones, cell cycle time was longer in males than in females. Orchiectomy shortened this time in all adrenocortical zones, an effect reversed by testosterone. Ovariectomy shortened cell cycle time in the glomerular and reticular zones and prolonged it in the zona fasciculata; these effects were reversed by estradiol. Turnover rate in adrenocortical cells was markedly higher in females than in males, a difference due to testosterone which markedly decreased turnover rate.     

Inhibited autophagic degradation during ACTH-stimulated growth of rat adrenal zona fasciculata

Autophagic vacuoles (AVs) in adrenal parenchymal cells of the outer part of the zona fasciculata were investigated by means of electron microscopic morphometry in 40 adult male Sprague Dawley rats. Four test groups and four control groups received twice daily subcutaneous injections of ACTH (12.5 U/kg body weight) or physiological saline, respectively, for 3, 6, 9 and 12 days. At 12 days the total dry weight of the adrenals was increased in ACTH-treated animals from 17.2 to 71.0 mg (about fourfold) and the average volume of zona fasciculata cells from 1,500 to 5,100 microns3 (about threefold). The relatively larger increase in total mass reflects mitotic activity in the growing adrenal tissue. The calculated growth rate of total tissue expressed as the percentage increase in dry weight per day was 12% at day 3 and decreased to 4.6% at day 12 of ACTH stimulation. During the time interval investigated the cytoplasmic volume fraction of autophagic vacuoles was significantly reduced from 10 X 10(-5) in controls to 1 X 10(-5) in ACTH-treated animals (p less than 0.001). Assuming a half-life for AVs of 7.9 min (Papadopoulos and Pfeifer 1986), autophagic degradation of cytoplasm can be calculated as 1.3%/day in controls, but only 0.15%/day in ACTH-treated animals. Thus growth of 1.15%/day can be attributed to inhibition of autophagic degradation. Although this is only part of total growth, it is evident from the present results that anticatabolic growth induction is utilized nearly to its maximum in adrenocortical fasciculata cells under the influence of ACTH.     

The influence of castration on cell proliferation in the adrenal cortex of female rats

Proliferation kinetics in the zones of the adrenal cortex of female rats after castration are reported. Following ovariectomy a wave of increased cell proliferation was observed in the zona glomerulosa and zona fasciculata after 1 and 2 days respectively. Increased cell proliferation in the zona reticularis was only slight. Cell proliferation returned to the level in control animals at 4 weeks. It is assumed that the regulative process following ovariectomy takes place directly in the adrenal cortex but it is possible that steroid metabolism in the liver is of importance. No relationship between the 3H-TdR labelling index (LI) and the mitotic index (MI) was observed.