Morphology and ultrastructure of the adrenal gland in Bactrian camels (Camelus bactrianus).

In the present study, we examined the morphological features of the adrenal gland in Bactrian camel by means of digital anatomy, light and electron microscopy. Our findings testified that the gland was divided into three parts, capsule, cortex and medulla from outside to inside as other mammals, and the cortex itself was further distinguished into four zones: zona glomerulosa, zona intermedia, zona fasciculate and zona reticularis. Notably, the zona intermedia could be seen clearly in the glands from females and castrated males, whereas it was not morphologically clear in male. There was a great deal of lipid droplets in the zona fasciculate, while it was fewer in the zona glomerulosa and zona reticularis. The cytoplasm of adrenocortical cell contained rich mitochondria and endoplasmic reticulum. The adrenal medulla was well-developed with two separations of external and internal zones. The most obvious histological property of adrenal medulla cells were that they contained a huge number of electron-dense granules enveloped by the membrane, and so medulla cells could be divided into norepinephrine cells and epinephrine cells. Moreover, the cortical cuffs were frequently present in adrenal gland. Results of this study provides a theoretical basis necessary for ongoing investigations on Bactrian camels and their good adaptability in arid and semi-arid circumstances.

Chronic welfare restrictions and adrenal gland morphology in broiler chickens.

Gait problems constitute an important and chronic welfare restriction for broiler chickens. The objective of the present study was to determine if adrenal gland morphology indicates chronic welfare restrictions in broiler chickens, using gait problems as the stressor. Sixty-six birds raised on a commercial unit were selected at 40 d of age and separated into groups according to gait score. One group was apparently healthy birds (AH) with gait scores of 0 to 2, and the other group had birds with gait problems (GP) that showed gait scores of 4 to 5. Birds were slaughtered and weighed, and their adrenal glands were measured and weighed; proportions of medullary and adrenocortical tissues, and lymphatic tissue and blood vessels were studied. GP birds had lower BW when compared to AH birds, and when adrenal gland weight values were adjusted to BW, a greater relative adrenal weight was observed for the GP group. Adrenals from GP birds also presented a higher proportion of blood vessels when compared to AH birds. These results might indicate increased adrenal activity and evidence of the inflammatory process as a consequence of chronic stress. Results showed that gait problems caused significant adrenal gland changes, suggesting a possible role for the study of adrenal gland morphology as an indicator of chronic welfare problems in broiler chickens.

Chromaffin cells of the adrenal gland in the beagle dog.

The distribution of adrenal chromaffin cells in the control beagle dog was investigated. The presence of chromaffin cells in the adrenal medulla, three zones of the adrenal cortex and capsule was identified by staining with H&E, chromium salts and TH (tyrosine hydroxylase) antibody. With H&E stain, there are morphological differences among the chromaffin cells in the medulla, cortex and capsule. In addition, the number of the capsular chromaffin cells was statistically significantly decreased in the 8-9, 11-12 and 15-16 month age groups compared with the 5-6 month age group. Both medullary and extra-medullary chromaffin cells contained catecholamines, demonstrated via special staining for chromium salts. TH is the first enzyme in catecholamine biosynthesis; it is a useful maker for all cells involved with catecholamine biosynthesis including chromaffin cells. TH antibody confirmed that the extra-medullary cells were chromaffin cells. Terminal deoxynucleotidyl transferase dUTP nick end labelling (TUNEL) assay for detecting the apoptotic signalling identified the apoptosis of the chromaffin cells in the capsule.

Adrenalectomía laparoscópica en Adenoma virilizante a propósito de un caso / Laparoscopy adrenalectomy in virilizant adenoma: a case report

Presentar un caso clínico. Paciente femenina de 40 años de edad IIIG IIIP enfermedad actual en 2007 con amenorrea, signos de virilización, fascie cushinoide, por lo cual acude a facultativo. Estudia con un perfil hormonal reportando en abril de 2009: prolactina 7,83, T3, T4, TSH sin alteraciones, estradiol elevado 280, progesterona en 0,4, FSH 9,7 LH 6,5, ultrasonido abdominopélvico reportando quiste de ovario izquierdo simple de 36 mm x 33 mm x 28 mm, volumen de 17,5 cm³, TAC abdomino-pélvica reporta imagen heterogénea capta contraste, contornos definidos en fosa suprarrenal derecha 4,8 cm de diámetro, sugestiva de adenoma suprarrenal, se aprecian aumento de volumen uterino sugestivo de fibromatosis y quiste de ovario derecho simple, catecolaminas urinarias y ácido vanidilmandélico normales, se decide tomar conducta quirúrgica definitiva, por lo que se solicita pre operatorio y el 17-02-10 fue llevada a adrenalectomía laparoscópica, con diagnóstico de adenoma suprarrenal virilizante. La biopsia definitiva reportó tumor epitelial benigno de células corticales adrenales (Adenoma adrenal cortical), sin invasión capsular necrosis ni pleomorfismos sin indicios de malignidad. La paciente fue dada de alta a las 24 horas, con posoperatorio inmediato satisfactorio, Presentando sangrado menstrual 1 mes posterior a la cirugía y reversión posquirúrgico de los signos de virilización. Los adenomas suprarrenales virilizantes son una patología rara pero cuando se presenta la clínica es inequívoca, se recomienda el abordaje laparoscópica de estas lesiones en pacientes bien seleccionados ya que el beneficio es indiscutible

Present a clinical case. Feminine of 40 years old IIIG IIIP initial start disease in 2007 with amenorrhoea, virilization signs, cushin fascies. Goes to facultative that studies with hormonal profile reporting in April of 2009: Prolactin 7.83, T3 T4 TSH without alterations, estradiol 280, progesterone in 0,4, FSH 9.7 LH 6.5, pelvic and abdominal ultrasound reporting cyst simple left ovary of 36 mm x33 mm x 28 mm and volume of 17.5 cm³, abdominal and pelvic TAC that reports heterogeneous image that catches contrast, contours defined in right adrenal grave 4.8 cm of diameter, suggestive of adrenal adenoma, also increase uterine volume of fibromatosis and cyst of straight simple ovary, urinary catecholamines and normal vanidilmandelic acid are appraised, reason by which it is decided to take definitive surgical treatment, reason why asks for pre operating studies and the 02-17-10 was taken to laparoscopic adrenectomy, with diagnosis of virilizant adrenal adenoma. The definitive biopsy report benign epithelial tumor of adrenal cortical cells (cortical adrenal adenoma), without capsular invasion necrosis non pleomorphic, without malignant suspicious items. The patient egresses to the 24 hours after surgery, with an immediate satisfactory post-operative, Presenting/displaying menstrual bleeding 1 month subsequent to the surgery and postsurgical reversion of the signs of virilization. The virilizant adrenal adenomas are a rare pathology but when the clinic appears is unequivocal, laparoscopic boarding of these injuries in selected patients is good recommended since the benefit is unquestionable

Maternal perinatal undernutrition has long-term consequences on morphology, function and gene expression of the adrenal medulla in the adult male rat.

Epidemiological studies suggest that maternal undernutrition sensitises to the development of chronic adult diseases, such as type 2 diabetes, hypertension and obesity. Although the physiological mechanisms involved in this 'perinatal programming' remain largely unknown, alterations of stress neuroendocrine systems such as the hypothalamic-pituitary-adrenal (HPA) and sympathoadrenal axes might play a crucial role. Despite recent reports showing that maternal perinatal undernutrition disturbs chromaffin cells organisation and activity in male rats at weaning, its long-term effects on adrenal medulla in adult animals are unknown. Using a rat model of maternal perinatal 50% food restriction (FR50) from the second week of gestation until weaning, histochemistry approaches revealed alterations in noradrenergic chromaffin cells aggregation and in cholinergic innervation in the adrenal medulla of 8-month-old FR50 rats. Electron microscopy showed that chromaffin cell granules exhibited ultrastructural changes in FR50 rats. These morphological changes were associated with reduced circulating levels and excretion of catecholamines. By contrast, catecholamine plasma levels were significantly increased after a 16 or 72 h of fasting, indicating that the responsiveness of the sympathoadrenal system to food deprivation was accentuated in FR50 adult rats. Among 384 pituitary adenylate cyclase-activating polypeptide-sensitive genes, we identified 129 genes (33.6%) that were under expressed (ratio < 0.7) in FR50 animals. A large number of these genes are involved in cytoskeleton remodelling and vesicle trafficking. Taken together, our results show that maternal perinatal undernutrition programmes adrenomedullary function and gene expression in adult male rats. Because catecholamines contribute to metabolic homeostasis, as well as arterial blood pressure regulation, the alterations observed in the adrenal medulla of adult male FR50 rats may participate in the programming of chronic adult diseases.

Adrenal glands of slaughtered bulls, heifers and cows: a histological study.

The study involved histological and immunohistochemical examinations of the adrenal glands of healthy slaughtered cattle. Glands of 13 bulls, 10 heifers and 10 cows were examined. The following histological findings were observed: Unequal thickness of connective capsule and nodular formations of the zona glomerulosa (ZG), eosinophilic granules in cells of the ZG, globoid arrangement of the zona fasciculata, nodules or pegs of cortical tissue in the medulla, mutual interlacing of superficial and deep zones of the medulla, proliferation of cortical or medullary cells into the blood vessels wall situated in the medulla and focal inflammatory infiltrates. Cortical cells and noradrenalin-secreting (N) cells in the medulla expressed cytoplasmic positivity of S100 protein. Both adrenalin (A) cells and N cells were positive in synaptophysin. The majority of the cells in the cortex and in the medulla displayed were positive for chromogranin A. Electron microscopy showed structureless, electrondense particles of varying size and shape, mostly displaying the having mostly character of secretory granules.

Prenatal development of the adrenal gland in the one-humped camel (Camelus dromedarius).

UNLABELLED: With 14 figures and 3 tables SUMMARY: Each adrenal gland consisted of cortex and medulla that developed from different embryological origins and presented different cellular organization. One hundred male or female camel embryos or fetuses with crown vertebral rump lengths (CVRL) that ranged from 0.8 to 117 cm were examined. The adrenal cortex, which is derived from intermediate mesoderm, was first observed in the 0.8-cm CVRL camel embryo. The adrenal cortex initially was combined with the gonad as a thickened region of proliferating cells derived from splanchnic intermediate mesoderm. Adrenocortical tissue was first separated from the gonadal tissue in the 2-cm CVRL camel fetus and was observed as a separate dorso-medial mass of cells. At 2.5-cm CVRL, the adrenocortical tissue was surrounded by a capsule of undifferentiated mesenchymal cells, except at its proximal pole, where an invagination was located through which chromaffinoblast cells entered the cortex. The chromaffinoblast cells migrated from the neural crest to form the medulla of the developing adrenal gland. In the 3.5-cm CVRL camel fetus, the adrenocortical cells differentiated into two layers: the inner fetal cortex and the outer definitive cortex. As development proceeded, the fetal cortex degenerated and the definitive cortex formed the zona glomerulosa and zona fasciculata. The zona reticularis did not form until the end of gestation. During prenatal life, the adrenal medulla was much thicker than the cortex.

Immunohistochemical localization of catecholamine biosynthetic enzymes in the adrenal gland of the domestic fowl (Gallus domesticus).

The present study investigated the cellular localization of 3 catecholamine biosynthetic enzymes, tyrosine hydroxylase (TH), dopamine beta-hydroxylase (DBH), and phenylethanolamine N-methyltransferase (PNMT) to identify and analyze the localization of norepinephrine (NE) and epinephrine (E) cells in the adrenal gland in the chicken using peroxidase-antiperoxidase immunohistochemical techniques. Tyrosine hydroxylase immunoreactivity (IR) was observed in almost all adrenal medullary cells of the adult chicken. Dopamine beta-hydroxylase IR coincided with that of TH. Many medullary cells also exhibited PNMT IR, but PNMT-immunonegative cells were also observed. Tyrosine hydroxylase IR was localized in the E- and NE-containing cells, but PNMT IR was localized only in the E-containing cells. Approximately 69% of medullary cells were E-containing, and the remaining were NE-containing cells. The ratio of E- and NE-containing cells between the subcapsular and central zone was statistically significant (P < 0.01). Although cortical cells of the adrenal gland did not show TH-, DBH-, or PNMT-positive reactions, ganglia close to the adrenal gland showed TH, DBH, and PNMT immunoreactivities. These findings indicated the cellular localization of 3 catecholamine-biosynthesizing enzymes in chicken adrenal medulla and suggest that the majority of medullary cell are E-containing cells. The ratio of E cells to NE cells varies among the 3 zones in the adrenal glands of the chicken.

Programming of rat adrenal medulla by neonatal hyperleptinemia: adrenal morphology, catecholamine secretion, and leptin signaling pathway.

Leptin serum concentration in early life is an important factor for adequate future development of the offspring. Previously, we demonstrated that hyperleptinemia on lactation programmed for hyperleptinemia, central leptin resistance with lower expression of the long form of leptin receptor at hypothalamus, and higher medullary catecholamine levels with cardiovascular consequences at adulthood. The central objective of this study was to determine the direct effect of leptin on adrenal medullary function of adult rats that were leptin treated during lactation. Adrenal morphology was also accessed. Recombinant murine leptin was injected in the pups during the first 10 days of life (group L, leptin-programmed) or at adulthood during 6 days (group LC). The controls of both experiments received saline (groups C and CC). Both treatments resulted in hyperleptinemia at 150 days old (+78% and 2-fold increase, respectively; P < 0.05). Programmed animals showed hypertrophy of adrenal and higher adrenal catecholamine content at 150 days old (3-fold increase, P < 0.05), and no changes were observed in the LC group. However, LC rats had lower adrenal content of tyrosine hydroxylase (-17%, P < 0.05). Leptin-programmed rats had a lower response to leptin in vitro stimulation (-22%, P < 0.05) and lower expression of key proteins of the leptin signaling pathway, leptin receptor and janus tyrosine kinase 2 in the medullas (-61% and -29%, respectively, P < 0.05). However, they presented higher expression of phosphorylated signal transducer and activator of transcription 3 (+2-fold, P < 0.05). Leptin treatment at adulthood did not affect these parameters. The higher catecholamine synthesis and secretion in the leptin-programmed rats observed in our previous study does not seem to be a consequence of the direct effect of leptin on the medullas. We suggest that the hyperleptinemia of the programmed animals increases adrenal medullary function through sympathetic nervous system activation. In conclusion, high leptin levels on lactation program the activity of the sympathoadrenal system at adulthood that may contribute to the development of adult chronic diseases such as hypertension.

Molecular imaging of adrenal gland by desorption electrospray ionization mass spectrometry.

Subtle differences in the spatial distributions of closely related compounds including norepinephrine and epinephrine as well multiple lipids are easily distinguished in adult porcine (17 x 8 mm) and rabbit (7 x 4 mm) adrenal glands in a DESI-MS imaging experiment at atmospheric pressure with a spatial resolution of approximately 200 microm. Sensitive and specific detection in the course of DESI imaging discloses details of catecholamine distribution in porcine adrenal medulla and cortex; the average mass of epinephrine interrogated in each pixel is estimated to be about 150 pg. The distribution of ascorbic acid was revealed in the negative ion mode. In addition, the distribution of cholesterol, which cannot be observed using conventional DESI, was obtained using in situ reaction with betaine aldehyde added to the DESI spray while imaging the porcine adrenal gland tissue. Four characteristic types of distributions were observed, with major amounts of the components in the medulla, the cortex, the reticular zone or in the fourth case, being homogeneously distributed. The results agree with and extend information available from histological studies.

An immunohistochemical investigation of the relationship between neuronal nitric oxide synthase, GABA and presympathetic paraventricular neurons in the hypothalamus.

Functional studies suggest that nitric oxide (NO) modulates sympathetic outflow by enhancing synaptic GABAergic function. Furthermore, the paraventricular nucleus of the hypothalamus (PVN), an important site for autonomic and endocrine homeostasis constitutes an important center mediating NO actions on sympathetic outflow. However, the exact anatomical organization of GABA and NO releasing neurons with the PVN neurons that regulate autonomic activity is poorly understood. The present study addressed this by identifying PVN-presympathetic neurons in the rat with the retrograde tracer Fluorogold injected into T2 segment of the spinal cord or herpes simplex virus injected into the adrenal medulla (AM). GABAergic or nitric oxide cell bodies were identified by antibodies directed towards GABA or glutamate decarboxylase (GAD67) enzyme or neuronal nitric oxide synthase. This revealed a population of GABAergic neurons to be synaptically associated with a chain of pre-sympathetic neurons targeting the AM. Furthermore, this GABAergic population is not a cellular source of NO. Within the PVN, the majority of cellular nitric oxide was localized to non-spinally projecting neurons while for the PVN-spinally projecting neuronal pool only a minority of neuron were immunopositive for neuronal nitric oxide synthase. In summary, nitrergic and GABAergic neurons are associated with a hierarchical chain of neurons that regulate autonomic outflow. This anatomical arrangement supports the known function role of a NO-GABA modulation of sympathetic outflow.

A morphological and histological examination of the pan-tropical spotted dolphin (Stenella attenuata) and the spinner dolphin (Stenella longirostris) adrenal gland.

The morphology and histology of the cetacean adrenal gland are poorly understood. Therefore, this study examined 32 pairs of adrenal glands from 18 pan-tropical spotted dolphins (Stenella attenuata) and 14 spinner dolphins (Stenella longirostris). In both species, the cortex was pseudolobulated and contained a typical mammalian zonation. Medullary protrusions (0-3 per section) and a medullary band were identified in both species. For S. attenuata, no statistical differences were found in the cortex to medulla (CM) ratio or the percent cross-sectional area (PCA) of the adrenal glands compared with sex or sexual maturity. The mean CM ratio for S. attenuata was 2.34 and the PCA was 64.4% cortex, 29.4% medulla and 6.2%'other'. 'Other' indicates blood vessels, connective tissue and the gland capsule itself. For S. longirostris, there was no statistical difference in the CM ratio compared with sexual maturity. However, a statistical difference was found between the CM ratio and sex, suggesting sexual dimorphism (female CM ratio = 2.46 and males = 3.21). No statistical differences were found in the PCA of S. longirostris adrenal glands by sexual maturity. However, a statistical difference was found between the PCA by sex. Female S. longirostris adrenal glands consisted of 65.0% cortex, 27.3% medulla and 7.7% 'other', whereas male adrenal glands consisted of 71.7% cortex, 22.7% medulla and 5.6% 'other'.

Feocromocitoma suprarrenal derecho: reporte de un caso y revisión de la literatura / Right adrenal pheochromocytoma: a case report and literature review

Presentar el caso clínico de una patología poco frecuente su manejo y su resolución quirúrgica, tratado en el Servico de Cirugía General IAHULA Mérida-Venezuela. Revisión de la literatura y descripción del caso clínico. El feocromocitoma es una enfermedad inusual y es causa de hipertensión arterial secundaria. Se presenta más frecuentemente como un tumor adrenal unilateral y en los mayores de 60 años. Las manifestaciones clínicas más comunes son cefalea paroxística, palpitaciones, diaforesis e hipertensión arterial paroxística o persistente. El diagnóstico se apoya en la clínica y en la determinación bioquímica, siendo el métdodo de elección la cuantificación de metanefrinas plasmáticas. Planteado el diagnósticio, es fundamental conocer la localización del tumor, lo que debe ser realizado mediante tomografía axial computada o resonancia nuclear magnética. El tratamiento consiste en el empleo de drogas antihipertensivas y la resección quirúrgica del tumor. Las drogas de elección son los antagonistas de los receptores alfa 2 adrenérgicos y/o bloqueadores de los canales de calcio, la resección puede ser realizada por laparotomía clásica como lo fue nuestro caso.

Interaction between chromaffin and sustentacular cells in adrenal medulla of viscacha (Lagostomus maximus maximus).

New evidence provides valuable information about the participation of sustentacular cells in chromaffin cell catecholamine secretion. In this process, calcium ions play an important role. It has been shown that there is an intense ionic traffic between both types of cells. Moreover, sustentacular cells take an active part in calcium metabolism, regulating levels of the ion and indirectly, the synthesis and release of catecholamines. This background information encouraged us to study the sustentacular population of Lagostomus adrenal medulla and its morphologic relationship with the chromaffin population. The animals were captured, transported to the animal facilities, anaesthetized and killed. The adrenal gland was processed by immunohistochemistry using antiserum against S-100 (subunit alpha and beta), a specific marker. Through the morphological and immunohistochemical study, it was found that there are sustentacular cells in deferent regions of adrenal medulla, mainly in the basal zone of chromaffin cells, which constitute the glomerular structure around blood capillaries. Cytoplasmic extentions of sustentacular cells penetrate into chromaffin cells and make contact with the basal membrane of the capillary endothelium. The relationship among chromaffin cells, capillaries and sustentacular cells suggests that they may intervene actively in the adrenal medulla metabolism.

Morphology and histology of the atlantic bottlenose dolphin (Tursiops truncatus) adrenal gland with emphasis on the medulla.

This study provides the first detailed description of the Atlantic bottlenose dolphin (Tursiops truncatus) adrenal gland with emphasis on the medulla. Thirty-one dolphins of varying age and sex were used in this study. No statistical differences were found between the right and left gland mass, however, the left was typically greater. Mean mass for the right and left adrenal glands were 4.99 +/- 0.513 and 5.36 +/- 0.558 g, respectively. No statistical differences were found between average gland mass and sexual maturity or sex. The average cortex/medulla ratio was 1.22 +/- 0.060 meaning approximately 48% is cortex, 41% is medulla, and 11% was categorized as other (i.e. blood vessels, connective tissue, etc.). The cortex contained pseudolobules and the typical zonation. A medullary band, consisting of highly basophilic staining cells was found at the periphery of the medulla. Projections of the medulla to the gland capsule were noted. Immunolabelling with polyclonal antibodies against the enzymes dopamine beta hydroxylase and phenylethanolamine N-methyl transferase indicated that noradrenaline producing cells are found throughout the medulla including the medullary band while adrenaline producing cells are only found within the medullary band. Transmission electron microscopy confirmed the presence of two distinct cell populations within the medullary band and a single cell population throughout the medulla.

Effect of exercise on mRNA expression of select adrenal medullary catecholamine biosynthetic enzymes.

The effect of submaximal endurance training (SET) on sympathoadrenal activity is not clear. We tested the hypothesis that SET (90 min/day, 5 days/wk, for 12 wk) elevates mRNA expression of catecholamine (CA) biosynthetic enzymes, tyrosine hydroxylase (TH) and dopamine-beta-hydroxylase (DbetaH) in the adrenal medullae of adult, female Sprague-Dawley rats. SET increased TH protein level by 35%, TH activity by 62%, TH mRNA expression by 40%, and DbetaH mRNA expression by 67%. In addition, we examined the effect of SET on Fos-related antigens (FRAs), FRA-2 immunoreactivity, and activator protein (AP)-1 binding activity. SET increased AP-1 binding activity by 78%; however, it did not affect late FRAs and FRA-2 immunoreactivity. Because the regulation of neuropeptide Y (NPY) often parallels that of CAs, we also examined the effect of SET on NPY mRNA expression. Indeed, SET elevated NPY mRNA expression as well. We conclude that 1) SET elicits a pretranslational stimulatory effect on adrenomedullary CA biosynthetic enzymes, 2) another immediate early mRNA product, rather than FRA-2, may contribute to the increase in AP-1 binding activity in response to SET, and 3) SET increases NPY mRNA expression.

Increased expression of tenascin in pheochromocytomas correlates with malignancy.

Tenascin is a significant extracellular matrix glycoprotein, which is upregulated in various neoplasias and pathologic processes. Pheochromocytomas are rare tumors of the sympathoadrenal system, whose malignancy is almost impossible to predict. There are no histologic or chemical markers available that would define the malignant behavior of these tumors, except the discovery of metastases. In our search for new markers, we investigated the immunohistochemical expression of tenascin in a large number of pheochromocytomas and paragangliomas. Seven tumors were metastasized and were thus considered malignant. Normal adrenal medulla was tenascin negative. A striking difference was seen between malignant and benign pheochromocytomas. All malignant pheochromocytomas expressed stromal tenascin strongly or moderately, whereas most benign pheochromocytomas (28 of 37, 70%) showed no or only weak immunopositivity. The staining was strong or moderate also in 13 of 28 (46%) of the tumors that showed histologically suspicious features, here called borderline tumors. Paragangliomas showed a more heterogeneous staining pattern, and no significant difference was found between benign and malignant paragangliomas. To our knowledge, this is the first study to demonstrate the expression of tenascin in pheochromocytomas and particularly the enhanced expression in malignant pheochromocytomas. We therefore suggest that tenascin may be associated with the malignant transformation and metastasis of pheochromocytomas. It is also a potential marker predicting more aggressive behavior in pheochromocytomas.

[Mechanisms of adrenal embryogenesis]. / Mekhanizmy émbriogeneza nadpochechnikov.

The aim of this vie is to discuss the general principles of prenatal development of adrenal gland. On the basis of spatial-temporal heterogenity of structural particularites of fetal adrenal cortex, spectrum steroidogenic enzymes and secreting hormones expression in adrenocorticocytes, regulation of proliferation and differentiation processes mechanisms, authors discuss adrenal morphogenesis in three periods of gestation. It was noted the close relationship between placenta development and hypothalamo-pituitary-adrenocortical system formation with specification in each gestation period. Adrenal embryogenesis accompanied by remodeling of structural, functional and biochemical properties of parenchimal-stromal elements of fetal organ. Definitive zonation formation determined by morphogens: ACTH, renal and intraadrenal angiotensin II, estrogens, prostaglandines and other. The action of these factors realization is due to immediately and thought growth factor system (IGF-I, IGF-II, EGF, bFGF), working as paracrine amplificators of morphogenetic signals and activators of transcriptional factors--c-fos and c-jun.

Non-invasive, quantitative assessment of the anatomical phenotype of corticotropin-releasing factor-overexpressing mice by MRI.

High resolution magnetic resonance imaging (MRI) was applied to quantify alterations in thymus and adrenal volumes, as well as body fat in genetically engineered corticotropin-releasing factor (CRF)-overexpressing mice. When compared to the organs in age-matched wild-type animals, the adrenals in CRF-overexpressing male mice were significantly enlarged and the thymus volume in females was significantly smaller. The fat content was significantly larger in CRF-overexpressing mice. The anatomical alterations observed in the MRI studies were in perfect line with post-mortem data (weights of organs). Furthermore, the observed interstrain differences are in agreement with recently published data on (i) the effect of continuous, intraventricular infusion of CRF in rats and (ii) the presence of atrophic adrenals in CRF-knockout mice. The present studies demonstrate that MRI can provide reliable measures of relatively small structures such as the adrenal glands and the thymus in mice. This makes MRI an attractive, non-terminal tool to monitor in laboratory animals, including transgenic mice, the consequence of continuous stress on relevant organs.