Histochemical localization of monoamine oxidase types A and B in the adrenal gland

Summary The distribution of monoamine oxidase types A and B within the adrenal galdn was studied in several mammals by histochemical methods. Controls showed that the methods were valid. The bovine adrenal medulla contained mostly the B type enzyme, distributed heterogeneously, with some A type associated with endothelium, nerves, and cells surrounding the nerves. The bovine adrenal cortex showed a marked zonation of the two types of monoamine oxidase. The zona glomerulosa contained the B type enzyme and the zona fasciculata and zona reticularis contained the type A enzyme. The adrenal medulla of the dog, cat, and rat demonstrated relatively little enzyme activity and it appeared to be both type A and B. The adrenal cortex of these animals appeared to contain mostly the B type enzyme, except the canine zona reticularis, which contained some A type monoamine oxidase as well.     

Morphometric and histological studies on the adrenal glands of the camel Camelus dromedarius

The adrenal gland of the camel consists of an outer cortex and an inner medulla. The general disposition of the cortex and medulla, however, differs occasionally from that of other mammals. Extensions of medulla could reach as far as the periphery of the cortex. Islet of medullary tissue may be found in sections of the cortex and cortical tissue consisting of all zones of the cortex may occur around arteries or nerves in the medulla. The medulla may be separated from the cortex by connective tissue especially in old camels. The arrangement of noradrenaline-secreting cells is different from that in other ruminants; they are found in groups scattered between the adrenaline-secreting cells. Bundles of smooth muscle occur in venules at the corticomedullary interface. Accessory adrenal glands are found embedded in the renal fat. They are similar in structure to the adrenal gland. The adrenal cortex forms 74% of the volume of the gland and the ratio of the cortex to medulla is 4:1. The zona glomerulosa, fasciculata and reticularis constitute about 13%, 53%, and 29% by volume of the cortex, respectively.     

Immunohistochemical localization of oxytocin and vasopressin in the adrenal glands of rat,cow, hamster and guinea pig

Summary The distribution of oxytocin and vasopressin in the adrenals of rat, cow, hamster and guinea pig has been studied by use of immunohistochemical techniques. In all the species studied the adrenal cortex contained both peptides; the staining in the zona glomerulosa being more intense than that in zona fasciculata or zona reticularis. The medulla, however, showed considerable species variation. In the cow, both peptides appear to be present in the adrenergic and noradrenergic cells, though staining was particularly prominent in cortical islands interspersed within the medullary tissue. In the rat, groups of medullary cells positive for both peptides were found, though it was not possible to associate these groups with particular chromaffin cell types. In the hamster oxytocin was present only in adrenaline-containing cells, whereas vasopressin was present in all medullary cells. The guinea pig medulla, which contains only adrenaline-secreting cells, was positive for both peptides. The possibilities that vasopressin and oxytocin have an autocrine or paracrine role in functioning of the adrenal gland is discussed.     

Steroidogenic characteristics of the adrenal cortex of the mare studied by electron microscopy

The three concentric zones of the horse adrenal cortex (zonae glomerulosa, fasciculata and reticularis) showed marked interpenetration and exhibited a different relative development according to their position in the gland. Whereas the three cortical zones each had a specific histological structure, the ultrastructure of their cells showed a certain qualitative homogeneity. The differences corresponded essentially to the relative abundance of the constituents which are generally considered typical of steroidogeneous cells: mitochondria with vesicular cristae, smooth endoplasmic reticulum and lipid droplets. Their importance increased progressively from the zona glomerulosa to the zona reticularis. In this zone, the presence of gap and septate-like cell junctions, and mitochondria with vesicular cristae in close proximity to a smooth endoplasmic reticulum with numerous dilated tubules, suggested that steroidogenesis may be the most active. Ultrastructural findings were indicative of only quantitative differences between the steroidogenic capacities of the three zones of the mare adrenal cortex.     

Ultracytochemical localization of particulate guanylate cyclase in rat adrenal gland exposed to stimulation by porcine brain natriuretic peptide

Summary We studied the cytochemical localization of particulate guanylate cyclase (GC) in rat adrenal gland after stimulation with porcine brain natriuretic peptide (pBNP) by electron microscopy. In the adrenal cortex, GC activity, as demonstrated by the presence of reaction product, was prevalently localized to the zona glomerulosa and zona fasciculata, while the zona reticularis showed little GC reaction product. In the adrenal medulla, GC reaction product was present only in adrenalin-containing cells. All GC positivity was associated with intracellular membranes. No GC reaction product was detected in specimens incubated in media devoid of pBNP. In parallel samples incubated in the presence of rat atrial natriuretic factor (rANF), the distribution of rANF-stimulated GC activity was similar to that of pBNP-stimulated GC activity.     

Class II MHC-expressing cells in the rat adrenal gland defined by monoclonal antibodies

 The detailed distribution and heterogeneity of various immunocompetent cells were characterized in the normal adrenal gland of the rat, with special emphasis on major histocompatibility complex (MHC) class II-expressing cells and macrophages. All adrenals contained at least two different populations of cells reactive with the dendritic cell or the macrophage antibodies. These cells were clearly distinguished from adrenal parenchymal cells by their morphology and location. The majority of dendritic cells were immunoreactive for the MHC class II (Ia) antigen (MRC OX6) and/or the dendritic cell antibodies (MRC OX62), and negative for the macrophage antibodies (ED1, ED2, and/or MRC OX42), whereas the main population of macrophages was immunonegative for the former antibodies and positive for the latter. The OX62-positive cells and the OX42-labeled cells occurred exclusively throughout the medulla. The cellular density of dendritic cells in the adrenal cortex was significantly higher than that of macrophages. Double-immunoperoxidase staining for ED1 and OX6 revealed that positively stained cells could be classified into the following categories: ED1⁺OX6⁺, ED1⁺OX6⁻, and ED1⁻OX6⁺. More then 40% of OX6⁺ cells were immunoreactive for ED1 in the zona glomerulosa, while approximately 15%, 20%, and 30% of OX6⁺ cells were positive for ED1 in the zona fasciculata, zona reticularis and medulla, respectively. ED1⁺ED2⁻ cells were more frequently detected in the zona glomerulosa than in other adrenal zones. Only a few ED1⁻ED2⁺ cells were located in the zona glomerulosa, whereas a large number of them were found in the zona fasciculata. In the zona reticularis and medulla, ED1⁺ED2⁺, ED1⁺ED2⁻, and ED1⁻ED2⁺ cells were detected in the ratio 2:1:3. Our rsults suggest that dendritic cells and macrophages mature during their migration within the adrenal gland. These immunocompetent cells may contribute to a paracrine regulation of adrenal function under physiological conditions. Accepted: 3 November 1997     

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.     

Aldosterone biosynthesis in mitochondria of isolated zones of adrenal cortex

An assumption that the aldosterone-synthesizing enzyme exists only in zona glomerulosa cells apparently contradicts our recent findings that a purified bovine adrenocortical cytochrome P-45011 beta catalyzes the aldosterone formation and the enzyme exists in both zones of the adrenal cortex. To gain more insight into the zone specificity of aldosterone production, the aldosterone-synthesizing activity of mitochondria prepared from the isolated zones of adrenal cortex of various animal species was investigated. The intact mitochondria from the bovine or porcine zonae fasciculata-reticularis could not produce aldosterone whereas those from the zona glomerulosa produced it at a significant rate. When the mitochondria from the zonae fasciculata-reticularis were solubilized by the addition of cholate, they produced aldosterone from corticosterone at a rate comparable to that of those from the zona glomerulosa. The presence of specific factor(s) in the zonae fasciculata-reticularis mitochondria inhibiting expression of the aldosterone synthetic activity is discussed. The mitochondria of the rat zonae fasciculata-reticularis could hardly catalyze aldosterone synthesis under the detergent-solubilized conditions, whereas those of the zona glomerulosa could. Immunoblot analysis revealed that the mitochondria of the zonae fasciculata-reticularis contained a protein of Mr 51,000 which was immunocrossreactive with a monoclonal antibody directed against P-45011 beta, whereas those of the zona glomerulosa contained two immunocrossreactive proteins of Mr 51,000 and 49,000. These results suggest that in the case of rat adrenal cortex, a specific aldosterone-synthesizing enzyme exists in the zona glomerulosa.     

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.     

Autoradiographic localization of vitamin A in the adrenal gland of rats.

Cellular distribution of vitamin A in the rat adrenal was evaluated by autoradiography. Vitamin A was concentrated in the lipid droplets of epithelial cells of the zona fasciculata and zona reticularis. A small amount of vitamin A was also present in the cytoplasm and nucleus of these cells. The zona glomerulosa contained very little vitamin A either in lipid droplets or in the remainder of the cell. The medulla had essentially no vitamin A. Such strong cellular specificity for uptake of vitamin A by the cells of the zona fasciculata and zona reticularis supports the hypothesis that vitamin A is involved in synthesis of glucocorticoid hormones.     

Dopamine in rat adrenal glomerulosa

There is increasing evidence that dopamine (DA) inhibits aldosterone production, but the source of DA for this dopaminergic influence is not known. In the present study we examined the adrenal's zona glomerulosa for the presence of DA. Rats maintained on an intake of regular food were killed by decapitation and the adrenal capsule (containing zona glomerulosa) and the remainder of the gland (containing both cortex and medulla) were examined for their content of DA and also for norepinephrine (NE) and epinephrine (E). DA was found in adrenal glomerulosa in substantial quantity, 1.92 +/- 0.17 (SEM) ng/mg wet weight, representing an approximate concentration of DA of 1-100 microM. DA in adrenal capsule represented 12.2% of the total adrenal content of DA. NE and E were also present in glomerulosa, 3.46 +/- 0.32 and 18.7 +/- 2.1 ng/mg respectively, but, unlike DA, about 98% of the total adrenal content of NE and E was contained in adrenal medulla. The NE/E ratio in capsule and medulla were similar, although slightly higher in adrenal medulla, suggesting that the medulla is the source of the NE and E found in glomerulosa. On the other hand, the DA/E ratio was several-fold higher in glomerulosa than medulla--suggesting that glomerulosa DA was derived at least partially from a source other than adrenal medulla. We also found that short-term culturing of the adrenal reduced DA levels to 1/3 that observed in fresh tissue. This could explain in part why cultured glomerulosa has been shown to be more responsive to administered stimuli. In summary, the findings indicate a significant concentration of DA in adrenal glomerulosa, and suggest that the effects of DA on aldosterone production are mediated locally within the adrenal.     

Nestin expression in rat adrenal gland

The constituents of the intermediate filament network of adrenal gland cells have not been deeply investigated in vivo. Adrenocortical cells have been reported to express cytokeratins and vimentin, but the intermediate filament components of the adrenomedullary cells are still unknown. Nestin is an intermediate filament protein that is mainly expressed in the developing nervous and muscle systems. It has been reported to be unable to form filaments by itself and it co-assembles with vimentin. Using immunocytochemical and biochemical approaches, the present study demonstrates that nestin is expressed in situ either in the cortex or in the medulla of adult rat adrenal glands. Nestin-negative cells prevalently form the zona glomerulosa whereas the zona fasciculata and the zona reticularis are mainly nestin-immunoreactive. Nestin-positive cells always express vimentin-like immunoreactivity but several cells apparently expressing only vimentin are detectable too. Nestin is also expressed by adrenomedullary cells that also display a faint vimentin-like immunoreactivity. We hypothesise that the inconstant detection of nestin in adrenocortical cells depends on their different functional moments. Moreover, even though our data do not allow to confirm vimentin in adrenomedullary cells, in situ detection of nestin in the adrenal medulla indirectly supports in vivo expression of vimentin in chromaffin cells.     

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.     

Incorporation of regulatory peptide hormones by individual cells of the adrenal cortex: Prolactin-adrenocorticotrophin differences

Recent refinements in methodology now permit the study of endogenous peptide hormones in their individual target cells. The investigations reported here deal with the question of whether endogenous ACTH can be detected in its target cells in the highly active adrenal gland of the normally lactating rat. This question was examined with immunohistochemistry. ACTH was found in both cytoplasm and nuclei of adrenal glomerulosa cells. In cells of the fasciculata and reticularis layers of the adrenal cortex, it did not appear inside nuclei but was present in the cytoplasm and on the nuclear envelope. The distribution of ACTH was compared with and found to be different from that of PRL. PRL, confirming previous findings, was not detectable at all in glomerulosa cells and, in cells of the inner cortical zones, was present in both cytoplasm and nuclei. In neither case was hormone found in the adrenal medulla. The apparent feasibility of studying peptide regulators such as ACTH and PRL in their individual target cells may be a focal point for an acceleration of our understanding of how these peptides work.     

Immunohistochemical localization of the somatostatin receptor subtype 2A in the rat adrenal gland

The immunohistochemical localization of the somatostatin receptor subtype sst2A was investigated in the rat adrenal gland using SS-800 polyclonal antibody. The sst2A immunopositivity was found in all adrenocortical zones and in adrenal medulla, the reaction being slightly more intense in zona glomerulosa and medulla. The administration of the potent agonist of sst2 receptors - octreotide - resulted in the enhancement of the immunopositivity in zona glomerulosa and medulla, whereas chronic exposure of the rats to diethylstilbestrol led to enhancement of the immunopositivity in zona glomerulosa and in the external part of zona fasciculata.     

The suprarenal glands of a prosimian primate,the lesser bushbaby (Galago senegalensis)

The gross relationships and light microscopic anatomy of the suprarenal gland of a prosimian primate, Galago senegalensis, is described. The left gland is located medial to the pole of the left kidney in a fascial compartment of its own. The right suprarenal is located medial to the pole of the right kidney in intimate apposition to the liver and inferior vena cava. The capsule of the right gland blends with the capsule of the right lobe of the liver and is also contiguous with the adventitia of the inferior vena cava. The histologic appearance of the gland is similar to that of other primate genera. The zona glomerulosa is poorly developed; the zona fasciculata is composed of cell cords and is relatively well developed and the zona reticularis shows no unusual characteristics. The organization of the lipid content of the various cortical zones show a considerably different pattern than previously reported. The zona glomerulosa contains numerous large lipid droplets. In contrast to the bi-laminar pattern of lipid deposition seen in other primates, the Galago shows three distinct layers of lipid droplets in the zona fasciculata. The zona reticularis has a moderate population of lipid droplets essentially similar to that reported in most other forms. The medulla, except for a sparse number of centrally displaced zona reticularis cells, is completely devoid of lipid deposits. The junction of the zona reticularis and medulla is distinct, although a connective tissue capsule is not present.     

Differential regulation of apolipoprotein-E messenger RNA in zona fasciculata cells of rat adrenal gland determined by in situ hybridization.

Previous studies showed that apolipoprotein-E (apoE) mRNA is regulated in rat adrenal gland by treatments that alter adrenal gland cholesterol content and steroidogenesis. In the present study cell types expressing apoE mRNA were determined by in situ hybridizations using an [alpha-35S]UTP-labeled RNA probe. Autoradiographic grains were counted to compare apoE expression in adrenal glands from control and experimentally treated animals. In control adrenal gland, zona (z.) fasciculata and z. reticularis exhibited the highest level of apoE mRNA expression, with lower levels in z. glomerulosa and medulla. Dexamethasone (DEX) treatment selectively increased apoE mRNA 3-fold in outer z. fasciculata, but not in other adrenal zones. ApoE mRNA expression appeared to be lower in adrenal glands from 4-aminopyrazolopyrimidine-treated rats, in that differences among adrenal gland zones were abolished. DEX treatment increased adrenal gland cholesteryl ester and oil red O staining in z. fasciculata cells in which the apoE mRNA concentration was increased as well as in other cortical cells in which apoE mRNA was unchanged. Aminoglutethimide administration led to a large increase in oil red O staining throughout the cortex, including z. fasciculata, without affecting apoE mRNA expression. These data suggest that adrenal gland apoE mRNA expression is not closely coupled to cellular cholesterol concentrations. Increased apoE mRNA expression in z. fasciculata of DEX-treated animals suggests an inverse relationship between apoE mRNA concentration and the level of steroidogenesis. This result is consistent with the proposal that apoE may play a role in regulating the utilization of cholesterol for steroid production.     

Trophic and steroidogenic effects of water deprivation on the adrenal gland of the adult female rat

The effects of a 3-day water deprivation were studied in adult female rats in order to know what are the different zones of the adrenal gland and the hormonal factors involved in the growth and the activity of the adrenal gland. Water deprivation significantly increased plasma renin activity (PRA), plasma Angiotensin II (AII), vasopressin (AVP), epinephrine, aldosterone and corticosterone concentrations but did not modify the plasma adrenocorticotropin hormone (ACTH) level. Water deprivation significantly increased the absolute weight of the adrenal capsule containing the zona glomerulosa without modification of the density of cells per area unit suggesting that the growth of the adrenal capsule was due to a cell hyperplasia of the zona glomerulosa. Water deprivation significantly increased the density of AII type 1 (AT₁) receptors in the adrenal capsule but did not modify the density of AII type 2 (AT₂) receptors in the adrenal capsule and core containing the zona fasciculata, the zona reticularis and the medulla. The treatment of dehydrated female rats with captopril, which inhibits the angiotensin converting enzyme (ACE) in order to block the production of AII, significantly decreased the absolute weight of the adrenal capsule, plasma aldosterone and the density of AT₁ receptors in the adrenal capsule. The concentration of corticosterone in the plasma, the density of AT₂ receptors and the density of cells per unit area in the zona glomerulosa of the adrenal capsule were not affected by captopril-treatment. In conclusion, these results suggest that AII seems to be the main factor involved in the stimulation of the growth and the secretion of aldosterone by the adrenal capsule containing the zona glomerulosa during water deprivation. The low level of plasma ACTH is not involved in the growth of the adrenal gland but is probably responsible for the secretion of corticosterone by the zona fasciculata.