Monoamine Oxidase in Rat and Bovine Endocrine

Monoamine oxidase (MAO) was characterized in tissue homogenates from rat pancreatic islets, rat neurohypophysis and adenohypophysis, and rat and bovine adrenal medulla and adrenal cortex. Phenylethylamine was preferentially deaminated by rat pancreatic islet and bovine adrenal medulla MAO and with slight preference by rat neurohypophysis MAO, whereas 5-hydroxytryptamine was preferentially deaminated by MAO from all other endocrine tissues. Tyramine was a good substrate for all tissues. Clorgyline, a selective inhibitor of MAO-A, preferentially inhibited deamination of 5-hydroxytryptamine by all tissue homogenates, whereas deprenyl, a selective inhibitor of MAO-B, preferentially inhibited deamination of phenylethylamine. Km values for 5-hydroxytryptamine and tyramine were higher by one to two decimal powers than for phenylethylamine in homogenates from all endocrine tissues. Km values were significantly lower for 5-hydroxytryptamine and significantly higher for phenylethylamine in rat and bovine adrenal cortex than in adrenal medulla. According to these results, the contributions of MAO-B to total enzyme activity were 70% for rat pancreatic islets, 45% for rat neurohypophysis, 15% for rat adenohypophysis, 20% for rat adrenal medulla, 10% for rat adrenal cortex, 60% for bovine adrenal medulla, and 20% for bovine adrenal cortex. PC 12 cells also contained predominantly MAO-A (90%); however, an increased Km for phenylethylamine and a sensitivity of deamination of this MAO-B substrate to inhibition by clorgyline are indicators of abnormal behavior of MAO in this clonal rat pheochromocytoma cell line.     

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.     

Characterization of insulin receptors in the bovine adrenal cortex and medulla.

In order to identify insulin receptors in the bovine adrenal cortex and medulla, we have studied 125I-porcine insulin binding to the membrane preparations from the bovine adrenal cortex and medulla. 125I-porcine insulin bound not only to the bovine adrenal cortex but to the medulla in time-, temperature-, and pH-dependent manners. The maximum levels of 125I-porcine insulin binding in the two tissues were observed at 4 degrees C for 24 h of incubation, and its optimum pH ranged from 7.6 to 8.0. Under these conditions, at tracer concentration of porcine insulin (200 pg/ml), 10.4% and 6.6% of 125I-porcine insulin added to each reaction tube bound specifically to 10(5) x g-pellet fractions (microsomal membrane) from the cortical tissue (0.3 mg of protein) and from the medullary tissue (2 mg of protein), respectively. 125I-porcine insulin binding was observed predominantly in the microsomal membrane from the bovine adrenal cortex, and in a 15,000 x g- pellet fraction (synaptosomal membrane) from the bovine adrenal medulla. Scatchard analysis of binding data yielded curvilinear plots in each tissue. Analysis of curvilinear plots based on two sites model revealed similar affinity constant between the cortex and medulla. Receptor concentration of the cortex was several times higher than that of the medulla. In the two bovine adrenal tissues, human proinsulin and insulin-like growth factor I (IGF-I) had about 1/100 potency compared to porcine insulin in displacing 125I-porcine insulin binding. Porcine glucagon added with concentration up to 10(-6) M did not inhibit 125I-porcine insulin binding to both the cortex and the medulla.(ABSTRACT TRUNCATED AT 250 WORDS)     

Basic Fibroblast Growth Factor (bFGF) Immunoreactivity Is Present in Chromaffin Granules

Basic fibroblast growth factor (bFGF) has recently been isolated from bovine adrenal glands. Immunohistological data revealed its presence in both adrenal cortex and adrenal medulla. Using immuno-electronmicroscopy, we found that in medullary chromaffin cells bFGF-immunoreactivity is localized in the secretory granules. Immunoreactivity also was observed by electronmicroscopy in isolated granules. Western blot analysis revealed the presence of the typical 18-kDa bFGF and additional immunoreactive materials with molecular masses of approximately 24, 30, and 46 kDa in whole bovine adrenal, and in cortex and medulla. Similar results were obtained with proteins from bovine chromaffin granules, with the following two exceptions: the 46-kDa immunoreactivity was found to be highly enriched when compared with medulla or cortex, and the 18-kDa band could be detected with only an antiserum against a synthetic peptide comprising the 24 NH2-terminal amino acids of bFGF, and not with an antiserum against purified bovine pituitary bFGF. All fractions enriched for bFGF-immunoreactivity showed neurotrophic activity for chick ciliary ganglion neurons, which could be blocked by antibodies. These results demonstrate for the first time the localization and occurrence of bFGF in a cellular secretory organelle, and present further evidence for the existence of higher molecular weight immunoreactive forms of bFGF.     

Biochemical characterization of enkephalin-like immunoreactive peptides of adrenal glands

The total enkephalin-like immunoreactive peptide content of adrenal glands from dog, cattle, guinea pig and rat was investigated by radioimmunoassay using a (met⁵)-enkephalin antiserum. Dog adrenals contain the highest amount of peptides, cattle and guinea pig adrenals contain lesser amounts, and the rat adrenals had the least amount (0.05% that of the dog). Comparison of the (met⁵)-enkephalin content of the adrenal cortex and medulla with that of whole bovine adrenal gland indicates that the peptides are concentrated in the medulla. Analysis of the chromaffin granules from bovine adrenal medulla indicates this to be the primary storage site for (met⁵)-enkephalin-like peptides. Gel chromatography reveals a molecular heterogeneity of the immunoreactive peptides in all species tested; high molecular weight peptides account for a larger proportion of the immunoreactivity when compared with the low molecular weight peptides.     

Autoradiographic localization of strychnine-sensitive glycine receptor in bovine adrenal medulla

The presence of an uptake system and a functional glycine receptor in adrenal medulla chromaffin cells was investigated using an autoradiographic technique in adrenal gland slices. Specific³[H]-glycine binding was observed in both adrenal cortex and medulla slices, while only specific binding of [³H]strychnine was seen only in chromaffin cells and was not associated with cortical cells. [³H]Glycine binding sites in the cortex are apparently different from those of [³H]strychnine binding sites in the medulla since excess strychnine does not displace [³H]glycine from adrenal cortex but does so from medulla. This difference supports biochemical evidence for glycine transport into medulla cells and glycine receptor sites on the chromaffin cell membrane.     

白暨豚肾上腺的研究

白鱀豚肾上腺重与体重的平均比值为0.25克/公斤,皮质体积与髓质体积的比值为6.59。白鱀豚肾上腺的组织结构与其它海豚相似,它有比较发达的球状带。讨论了白鱀豚肾上腺形态变化在年龄生长、授乳等生理过程和在自然环境、豢养环境生态适应上的意义。并报道了一例罕见的白鱀豚肾上腺先天性表皮样囊肿。       

Identification of pro-opiomelanocortin and the secretion of its peptide fragments in the adrenals of the bull

Immunoreactive alpha-, beta- and gamma-endorphins and beta-lipotropin--C-terminal peptide fragments of pro-opiomelanocortin (POMC)--were discovered and measured by RIA in the bovine adrenal medulla and cortex. These peptides were also discovered in perfusates of the adrenal gland. POMC proper and some intermediate forms of its processing not differing in electrophoretic mobility from the respective molecular forms of hypophyseal POMC were identified in the medulla and cortex of the adrenals by the immunoblotting technique with the use of antiserum to beta-lipoprotein. It is concluded that POMC gene is expressed in the adrenal medulla and cortex and that as a result of POMC processing a noticeable amount of its peptide fragments is formed and secreted in adrenal cells. The authors thus suggest the presence of existence of the pituitary-unrelated mechanisms of adrenal function control with participation of POMC peptides synthesized in the adrenals.     

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.     

Regional Distribution of Neuropeptide Y and Its Receptor in the Porcine Central Nervous System

The regional distribution of neuropeptide Y (NPY) immunoreactivity and receptor binding was studied in the porcine CNS. The highest amounts of immunoreactive NPY were found in the hypothalamus, septum pellucidum, gyrus cinguli, cortex frontalis, parietalis, and piriformis, corpus amygdaloideum, and bulbus olfactorius (200-1,000 pmol/g wet weight). In the cortex temporalis and occipitalis, striatum, hippocampus, tractus olfactorius, corpus mamillare, thalamus, and globus pallidus, the NPY content was 50-200 pmol/g wet weight, whereas the striatum, colliculi, substantia nigra, cerebellum, pons, medulla oblongata, and medulla spinalis contained less than 50 pmol/g wet weight. The receptor binding of NPY was highest in the hippocampus, corpus fornicis, corpus amygdaloideum, nucleus accumbens, and neurohypophysis, with a range of 1.0-5.87 pmol/mg of protein. Intermediate binding (0.5-1.0 pmol/mg of protein) was found in the septum pellucidum, columna fornicis, corpus mamillare, cortex piriformis, gyrus cinguli, striatum, substantia grisea centralis, substantia nigra, and cerebellum. In the corpus callosum, basal ganglia, corpus pineale, colliculi, corpus geniculatum mediale, nucleus ruber, pons, medulla oblongata, and medulla spinalis, receptor binding of NPY was detectable but less than 0.5 pmol/mg of protein. No binding was observed in the bulbus and tractus olfactorius and adenohypophysis. In conclusion, immunoreactive NPY and its receptors are widespread in the porcine CNS, with predominant location in the limbic system, olfactory system, hypothalamoneurohypophysial tract, corpus striatum, and cerebral cortex.     

Identification of aldosterone secretion inhibitory factor in bovine adrenal medulla

We report the first demonstration of an Aldosterone Secretion Inhibitory Factor (ASIF) in acid extracts of bovine adrenal medulla. Following separation from catecholamines and enkephalins, this factor leads to an 80% inhibition of PGE1-stimulated secretion of aldosterone from bovine adrenal zona glomerulosa. ASIF is retained on cation exchange gels and behaves as a small 5K-dalton peptide on Sephadex G-50. This factor cross-reacts in a radio-receptor assay for [125I] atrial natriuretic factor (ANF). ASIF is distinct from all neuropeptides formerly detected in the adrenal medulla, e.g. somatostatin, enkephalin, neuropeptide Y, dynorphin, neurotensin. In the adrenal gland, this ANF-like factor is predominantly found in the medulla (4 pmol/mg protein), with only trace amounts in the cortex (0.1 pmol/mg protein). ASIF might perhaps correspond to the endogenous ligand for the receptor sites that we have previously identified with [125I]ANF in bovine adrenal cortex and could contribute to the formerly reported attenuating influence of the adrenal medulla on mineralocorticoid production.     

Histometric findings in the adrenals of the domestic pig with reference to constitutional defects]

The Piétrain pigs are significant different from the German Landrace and the Edelschwein in the histometrical parameters of the adrenal glands like cortex and medulla part, height of the cortex regions, part of adrenaline and noradrenaline producing cells. The weight of their adrenal glands is less than in the other races but their part of Zona fasciculata and of adrenaline producing cells is comparably high. These findings let expect distinct reactions on stressors. There are no hints on insufficiency of the adrenal glands. The histometrical parameters and the blood cortisol levels are discussed with regard to deficiencies in meat quality.     

Histological development of the equine fetal adrenal gland.

The horse fetal adrenal gland was shown to begin to increase in weight from about the end of the 4th month of pregnancy when the fetus has a crown-rump length of about 20 cm. Growth then proceeds steadily to term but, in contrast to the adult horse, the medulla remains thicker than the cortex throughout fetal life. The cortex also becomes established around 20 cm crown-rump length and at the same time the glomerular and fascicular zones become distinguishable. In contrast the reticular zone is not differentiated until around 50 cm crown-rump length. In the fetal adrenal cortex, the fascicular zone is less prominent than in the adult horse although counts of cell nuclei in the cortical region indicate hypertrophy of the fascicular cells during the last third of gestation.     

Distribution of secretory granules from adrenal medulla and neurohypophysis on continuous isoosmotic density gradients formed with a new loxaglic derivative AG-6227

The use of isoosmotic gradients made up with a new radioopaque substance, an ioxaglic derivative (AG-6227), for isolating subcellular organelles is described. This compound has been used to isolate neurosecretory granules from bovine adrenal medulla and neurohypophysis on continuous isoosmotic density gradients. Compared with parallel continuous isoosmotic density metrizamide-sucrose gradients, AG-6227 offers many advantages and is thus of great interest as a tool for isolating any subcellular organelles.     

Presence of the Novel Pituitary Protein „7B2” in Bovine Chromaffin Granules: Possible Co-Release of 7B2 and Catecholamine as Induced by Nicotine

We observed the presence of the novel pituitary protein "7B2" and its release in the bovine adrenal medulla. The 7B2 concentration (mean +/- SEM) in extracts of the bovine adrenal medulla was 952 +/- 155 pg/mg tissue (n = 6). 7B2 was distributed in the chromaffin granule fraction prepared from the bovine adrenal medulla and was released by high K+ and/or nicotine from cultured cells of the bovine adrenal medulla. Co-release of 7B2 with catecholamine induced by nicotine from the cultured bovine chromaffin cells was also observed. In an analysis of the bovine adrenal medulla chromaffin granule fraction on gel permeation chromatography, there was a major peak with an apparent molecular weight of 45,000, whereas a major peak with an apparent molecular weight of 20,000 was found in that on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. On reverse-phase HPLC, a major peak with a retention time of 35 min was observed in the bovine chromaffin granule fraction and in the bovine anterior pituitary extract. These findings indicate that 7B2 is a secretory protein in the bovine adrenal medulla. The possibility that 7B2 might be released with catecholamine, possibly in response to stress, warrants investigation.     

Neuropeptide W is expressed in the noradrenalin-containing cells in the rat adrenal medulla

Neuropeptide W (NPW) is an endogenous ligand for GPR7, a member of the G-protein-coupled receptor family. NPW plays an important role in the regulation of both feeding and energy metabolism, and is also implicated in modulating responses to an acute inflammatory pain through activation of the hypothalamus-pituitary-adrenal axis. GPR7 mRNA has been shown to be expressed in the hypothalamus, pituitary gland and adrenal cortex. Similarly, NPW expression has been demonstrated in the brain and pituitary gland. However, the precise distribution of NPW-producing cells in the adrenal gland remains unknown. The aim of this study was to explore the distribution and localization of NPW immunoreactivity in the rat adrenal gland. Total RNA was prepared from the hypothalamus, pituitary gland and adrenal gland. RT-PCR revealed the expression of NPW mRNA in these tissues, while in situ hybridization demonstrated the presence of NPW mRNA in the adrenal medulla. When immunohistochemistry was performed on sections of adrenal gland, NPW-like immunoreactivity (NPW-LI) was observed in the medulla but not in the cortex. Moreover, NPW-LI was found to be co-localized in cells which expressed dopamine beta hydroxylase but not phenylethanolamine-N-methyltransferase. The finding that NPW is expressed in noradrenalin-containing cells in the adrenal medulla suggests that it may play an important role in endocrine function in the adrenal gland.     

Chemical codes of sensory neurons innervating the guinea-pig adrenal gland

Retrograde neuronal tracing in combination with double-labelling immunofluorescence was applied to distinguish the chemical coding of guinea-pig primary sensory neurons projecting to the adrenal medulla and cortex. Seven subpopulations of retrogradely traced neurons were identified in thoracic spinal ganglia T1-L1. Five subpopulations contained immunolabelling either for calcitonin gene-related peptide (CGRP) alone (I), or for CGRP, together with substance (P (II), substance P/dynorphin (III), substance P/cholecystokinin (IV), and substance P/nitric oxide synthase (V), respectively. Two additional subpopulations of retrogradely traced neurons were distinct from these groups: neurofilament-immunoreactive neurons (VI), and cell bodies that were nonreactive to either of the antisera applied (VII). Nerve fibres in the adrenal medulla and cortex were equipped with the mediator combinations I, II, IV and VI. An additional meshwork of fibres solely labelled for nitric oxide synthase was visible in the medulla. Medullary as well as cortical fibres along endocrine tissue apparently lacked the chemical code V, while in the external cortex some fibres exhibited code III. Some intramedullary neuronal cell bodies revealed immunostaining for nitric oxide synthase, CGRP or substance P, providing an additional intrinsic adrenal innervation. Perikarya, immunolabelled for nitric oxide synthase, however, were too few to match with the large number of intramedullary nitric oxide synthase-immunoreactive fibres. A non-sensory participation is also supposed for the particularly dense intramedullary network of solely neurofilament-immunoreactive nerve fibres. The findings give evidence for a differential sensory innervation of the guineapig adrenal cortex and medulla. Specific sensory neuron subpopulations suggest that nervous control of adrenal functions is more complex than hitherto believed.     

Identification and subcellular localization of catalase activity in bovine adrenal medulla and cortex

Catalase activity was detected in homogenates of bovine adrenal cortex and medulla. Analysis by equilibrium density centrifugation in isoosmotic metrizamide-sucrose gradients revealed that 70% of the medullary catalase activity was soluble while most of the remainder was found in a particulate form with a density of 1.175 g/ml. This was distinct from the densities of lysosomes, mitochondria, and chromaffin granules. Catalase activity in adrenal cortex was primarily (90%) soluble with only 6% being particulate, with a density of 1.185 g/ml. d-Amino acid, uric acid, and α-hydroxyacid oxidase activities, often associated with peroxisomes in other tissues, were absent from homogenates and catalase-containing gradient fractions from either cortex or medulla. There was an indication that some catalase activity was associated with chromaffin granules on the basis of density gradient analysis of both medullary homogenates and crude granule preparations. When granule fractions were subjected to osmotic shock, catalase activity distributed between soluble and sedimentable fractions differently from epinephrine and dopamine β-hydroxylase activity. The sedimentable catalase activity remained associated with chromaffin granule membranes upon isopycnic centrifugation. We concluded that catalase activity in both adrenal cortex and medulla was largely cytoplasmic, but that both tissues contained at least some catalase in dense organelles. Catalase activity which may be associated with chromaffin granules represents a small fraction of the total activity in the medulla.     

Dynamics of renal medullary vinculin under changing of osmoregulating function

Reduction of vinculin occurs in the renal medulla under the long-lasting dehydration. The protein content measured in inner medulla of rats of the WAG line under hydration was 92.1 +/- 6.3 in relative units, but it was only 77.6 +/- 2.3 after a 3-day water deprivation. The vinculin content in the inner medullar layer from mutant rats of Brattleboro line incapable of synthesizing vasopressin is essentially higher: it is 188.9 +/- 8.5 in hydrated conditions and drops to 148.4 +/- 7.3 under a 3-day dehydration. The same high level of vinculin is in outer medulla from rats of Brattleboro line: 222.1 +/- 11.8 in hydrated animals and 174.9 +/- 11 after a 3-day dehydration. No differences were revealed in response of vinculin to alternative osmoregulating stimulation in cortex in both rat lines.