Morphofunctional characteristics of adrenal reactivity in rats of different ages

Ultrastructural peculiarities of the cortical and medullary substance of the adrenals have been studied in mature (8-month-old) and old (26-month-old) intact white male rats and in rats of the same age groups in 3 h after electrical stimulation of the hypothalamic ventromedial nuclei. By means of certain biochemical methods contents of hormones (corticosterone, adrenaline and noradrenaline) have been estimated, as well as that of cholesterin and ascorbic acid in blood and adrenal tissues. After the hypothalamus is stimulated in the mature rats, certain peculiarities in the adrenals reactivity are revealed; they demonstrate positive ultrastructural and functional correlation of secretory cells in the cortex and medulla and are characterized with hypertrophy of the nuclei, increased amount of polyribosomes, hypertrophied Golgi complex and canaliculi of the endoplasmic reticulum and increased contents of corticosteroids and catecholamines in blood. In the old rats after stimulation of the hypothalamus, certain unequal ultrastructural and functional peculiarities are revealed. They demonstrate both disturbance of the hypothalamic regulation of the adrenal function at ageing and decreased adaptive possibilities of the adrenal secretory cells at the subcellular level.     

Calcitonin responses in intact and adrenalectomized rats

The effect of adrenalectomy on the response to exogenously administered calcitonin has been studied in rats. In adrenalectomized rats calcitonin produced a hypocalcemia equivalent to that produced in adrenal intact rats. However, the responses in intact and adrenalectomized rats differed in that recovery from hypocalcemia was delayed by adrenalectomy. Literature data indicate that calcitonin is taken up by the adrenal cortex. Data presented here indicate that adrenal cortical tissue inactivates calcitonin. Thus, the prolongation of the hypocalcemia of calcitonin by adrenalectomy may be due to the removal of an organ that sequesters and degrades the hormone.     

Seasonal dynamics of cellular mitotic activity in the adenohypophysis and adrenal cortex of normal rats and under the stress reaction

The experiments have been performed in 162 white non-inbred male rats. The animals are sacrificed on the third week of every month between 11 A. M. and 13 P. M. Some essential changes in the mitotic coefficient (MC) are noted in the organs of the hypophysis-adrenal system during 1 year. In the intact rats adenohypophysis the MC reaches its maximum in March, and in September in drops to its minimal value. In the glomerular and the fascicular-retinal zones of the intact animal adrenal cortex, two periods with an elevated mitotic activity are noted during the annual cycle (in spring and in autumn). Formalin stress produces a decrease in the adenohypophysis, and in the fascicular-retinal zone of the adrenal cortex--an increase of the MC. In the fascicular-retinal zone there is not any reaction only in May and June. Perhaps, the reason is in some seasonal changes of reactivity of the zone mentioned to ACTH. The seasonal dynamics of the MC in the hypophysis-adrenal system organs is in general maintained under the stress.     

Effect of Oxotremorine on Ornithine Decarboxylase Activity of the Adrenal Gland in Rat

Abstract: In this work we have studied the mechanism for the increase of adrenal ODC (ornithine decarboxylase, EC 4.1.1.17) activity provoked by oxotremorine, a muscarinic agonist. 1. Oxotremorine increased medullary ODC activity maximally at 2 h. Cortical enzyme responded much more slowly. 2. Blockade of peripheral muscarinic receptors with methylatropine partially reduced the response to oxotremorine in the medulla, but not cortex. 3. Hy-pophysectomy abolished the cortical, but not the medullary, responses to oxotremorine. Methylatropine reduced the effect of oxotremorine on medullary ODC in hypophysectomized rats. 4. In unilaterally splanchnicotomized rats oxotremorine caused an increase of ODC activity of the denervated adrenal gland relative to control value; activities in both medulla and cortex were significantly lower than those observed in the innervated gland. Evidence was obtained for a compensatory increase of ODC activity of the adrenal cortex (but not medulla) on the intact side of unilaterally operated rats. 5. Surgical intervention, in the form of a sham operation for transection of the spinal cord, leads to an increase of ODC activity in both parts of the adrenal gland. Transection of the cord attenuates these increases. 6. The additional increase of medullary ODC activity owing to the administration of oxotremorine to sham-operated rats is partially reduced in the adrenal medulla by muscarinic blockade, and completely in the cortex. This effect of methylatropine in regard to cortical ODC activity was not apparent in the other experiments with intact or unilaterally splanchnicotomized (unoperated side) rats. The results with unilaterally splanchnicotomized rats and those with transected spinal cord suggest that oxotremorine-induced modifications of adrenal ODC activity are centrally mediated, above the level of origin of the splanchnic nerves in the spinal cord (T_8–10). Experiments with hypophysectomized rats show that the response of the adrenal cortex to oxotremorine is entirely mediated by the hypophysis.     

Aldosterone biosynthesis and cytochrome P-45011 beta: evidence for two different forms of the enzyme in rats

Whereas cytochrome P-45011 beta has been recently shown to catalyze the two-step conversion of corticosterone to aldosterone in the bovine and porcine adrenal cortex, the identity of the enzyme involved in the two final steps of aldosterone biosynthesis in the rat adrenal cortex is as yet unknown. Mitochondria from capsular adrenals of sodium-deficient, potassium-replete rats converted corticosterone to 18-hydroxycorticosterone and aldosterone at markedly higher rates than mitochondria from capsular adrenals of sodium-replete, potassium-deficient rats. However, the same preparations exhibited no difference in the 11 beta-hydroxylase activity, i.e. the conversion of deoxycorticosterone to corticosterone. Only mitochondria of zona glomerulosa from rats with stimulated aldosterone biosynthesis contained a 49K protein which showed a strong cross-reactivity with a monoclonal antibody raised against purified bovine cytochrome P-45011 beta. By contrast, a crossreactive protein with a molecular weight of 51K was found in mitochondria of zona fasciculata and in mitochondria of zona glomerulosa from rats with a suppressed aldosterone biosynthesis. These findings indicate the existence of two different forms of cytochrome P-45011 beta in the rat adrenal cortex, with only one of them, i.e. the 49K form, being capable of catalyzing the two final steps of aldosterone biosynthesis in situ.     

Elevated cyclic GMP concentrations in rat adrenal cortex after dexamethasone administration.

The levels of cGMP and cAMP were measured in the fasciculata-reticularis zona of the adrenal cortex in both intact and hypophysectomized young adult male rats. After administration of a single dose of dexamethasone to intact rats, cGMP levels were elevated 2–4 fold after 4hr and returned to control level after 8hr. At the same time, cAMP concentrations were moderately lowered. In hypophysectomized rats dexamethasone administration was followed by a similar increase in the cGMP level, the basal cAMP concentrations were not altered by dexamethasone. Our data suggest that dexamethasone might have a direct effect on cGMP concentration in the adrenal cortex of the rat.     

The effects of monensin on Golgi complex of adrenal cortex and steroidogenesis.

The ultrastructural and biochemical changes produced by monensin on zona fasciculata cells of the rat adrenal cortex are described. In this study we used adrenal cells in culture, adrenal slices and the intact animal. Monensin (1 microM) was added to the culture medium containing the cells, and to the incubation medium containing the adrenal slices, and was injected intravenously to the intact animal (0.65 mg/kg body weight). The ultrastructural alterations were similar in the three experimental conditions, and consisted of Golgi complex disorganization with dilated cisternae or large smooth vesicles. Quantitative analysis showed a significant increase of the relative volume of the Golgi area. The biochemical study demonstrated a significant decrease of corticosterone concentrations in culture medium after monensin addition, and in adrenal glands from treated rats. These results showed that monensin alters the fine structure of adrenal cortex Golgi complex and inhibits corticosteroidogenesis, which supports the probable role of the Golgi complex in the regulation of steroidogenesis.     

Modulation of the renin-angiotensin system may alter the adrenocortical regeneration

The effect of the renin-angiotensin system on adrenocortical regeneration has been studied in rats subjected to left adrenal enucleation combined with contralateral adrenalectomy. It was found that angiotensin II stimulated both proliferation and the steroidogenic capacity of the regenerating adrenal cortex cells by 6 days after operation. The stimulatory effect of angiotensin was prevented by losartan, a type 1 angiotensin (AT1) receptor antagonist, and by nifedipine, a calcium channel blocker. Losartan and nifedipine also depressed the adrenocortical regeneration when given alone. Enalapril, an angiotensin converting enzyme blocker, inhibited both the proliferation and steroidogenesis of the regenerating adrenal cortex, but this effect could be prevented by angiotensin II.     

The physiological reactions to stress in 3 strains of rats]

We have studied the resistance of Wistar, August, Fisher male rats to 2- and 24-hours immobilization by vegetative and behavioral reactions. The difference in the resistance has been observed both between the three lines of rats and within one particular line. The lowest resistance to stress has been demonstrated by Fisher rats, the highest by Wistar rats. The correlation between emotional reactivity of rats and their response to stress has been shown.     

Morphofunctional features of the secretory cells of the adenohypophysis and adrenal glands of the rat during aging

Karyometric and electron microscopic investigation has been performed in the adenohypophyseal secretory cells, in the cortex and medulla of the adrenal glands in mature (6 months) and ageing (25-26 months) white male rats. The diameter of the corticotropic cell nuclei of the adenohypophysis significantly increases with age. In the secretory cells of the adrenal cortex and medulla no important changes in their parameters are revealed. With age destructive changes of the ultrastructures are manifested variously in different types of the secretory cells in the endocrinic glands studied. In the corticotropic, somatotropic, thyreotropic cells of the adenohypophysis, in spongiocytes of the adrenal cortex, compensatory ultrastructural rearrangements develop; they are aimed to preserve functional activity of the cells mentioned. No age changes are revealed in ultrastructure of chromaffin cells of the adrenal medulla.     

Small lesions in the primary visual cortex of rats cause a specific reorganization of associational connections

Summary Neuroplastic changes in associational connections were investigated 3 weeks after the intrinsic organization of the visual cortex of rats had been partially damaged by small cylindrical lesions (type I). These lesions caused the degeneration of short intracortical connections and associational connections that form patches in the primary and secondary visual areas. The resulting terminal degeneration disappeared within 20 days p.o. after which only some fiber degeneration was evident in the infragranular layers.Patches of terminal degeneration reappeared in the vicinity of the stab wounds, when the associational connections between the retrosplenial and the primary visual cortex had been secondarily interrupted by elongated lesions (type II), which penetrated the paramedian cortex and subcortical white matter. When type-II lesions were made in the intact cortex, patches of degeneration were absent, although in both cases some terminal degeneration was diffusely distributed in the primary visual cortex.Horseradish peroxidase (HRP) was applied to sites similar to those where type-I lesions were applied. In the intact cortex, HRP caused a granular labeling of numerous neurons in various positions including the retrosplenial cortex and patches of the postero-median visual cortex. HRP was also applied to type-I lesions that had been made 3 weeks earlier. In these cases, apparently HRP labeled the same subpopulations of neurons as it did in the intact cortex. However, a fraction of the labeled neurons showed a Golgilike staining (e.g., 27% of the labeled neurons in the retrosplenial cortex) only when HRP was applied to stab wounds.These results suggest that the breakdown of corticocortical connections in foci of the primary visual cortex causes a focal augmentation of specific associational connections, which are weak and diffusely distributed in the intact adult cortex of rats. Re-innervation originates from subpopulations of associative neurons in the retrosplenial and postero-median visual cortex. Preliminary experiments indicate that the failure of neonatal treatment with 6-OHDA to suppress this lesion-induced plasticity is not dependent on an intact noradrenergic innervation.     

Studies on methyl-xanthines in intact and hypophysectomised rats: differences in pharmacokinetics and adrenocortical response

The effects of caffeine (Cf), theophylline (Tph) and theobromine (Tb) on the adrenal cortex were studied. No direct effect (hypophysectomized: hypo(-) rats) was observed with any of the three methyl-xanthines (MX) after chronic oral administration (5 days). An indirect effect (via the hypothalamo-hypophyseal-adrenal axis) was found for theophylline: plasma and adrenal corticosterone levels were increased in intact rats, after acute or chronic treatment. The high toxicity of MX (mainly Tph) observed in hypo(-) rats prompted the study of pharmacokinetic parameters: the clearance was decreased and the half-life was increased by a factor 3 for Cf and 1.6 for Tph. Thus, the elimination of Cf and Tph was slowed down in hypo(-) rats.     

Light and electron microscopic evidences of the presence of c-fos-like immunoreactivity in the rat adrenal cortex

Summary The presence and localization of c-fos-like immunoreactivity in the rat adrenal cortex has been demonstrated by immunocytochemical methods at both light and electron microscopic level. C-fos-like immunoreactivity was detected in the zona fasciculata and the zona reticulata, but not in the zona glomerulosa. Ultrastructurally, all products of c-fos-like immunoreaction were localized exclusively in the regions associated with the euchromatin in the nucleus of the immunoreactive cells. Moreover, a higher density of the immunoreactive cells in the adrenal cortex of pregnant rats was found with quantitative immunocytochemistry as compared to the non-pregnant. The characteristic zonation of c-fos-like immunoreactivity in the adrenal cortex suggest that the c-fos protein is involved in the normal function of the glucocorticoid-producing cells of mammalian adrenals. The numerical increase in the immunoreactive cells in pregnant rats implies that basal expression of the c-fos-like protein may vary with the functional state of the cortical cells.     

Effect of vibration on gamma-aminobutyric acid metabolism in the brain in various functional conditions of the adrenal cortex]

The low-frequency vibration during 30 min (20 Hz, A = 0.4 mm) has been studied for its influence on the level of components of the GABA system and dicarbonic ++amino acids in male rats at hypo- and hyperfunction of the adrenal cortex. It is shown that under these conditions of the experiment the GABA level and glutamate-decarboxylase activity increase. Hyperfunction of the adrenal cortex against the background of vibration causes a relatively less pronounced increase in the GABA content, than the vibration alone or against the background of inhibition of adrenocortical function in the organism.     

Light and electron microscopic evidences of the presence of c-fos-like immunoreactivity in the rat adrenal cortex

The presence and localization of c-fos-like immunoreactivity in the rat adrenal cortex has been demonstrated by immunocytochemical methods at both light and electron microscopic level. C-fos-like immunoreactivity was detected in the zona fasciculata and the zona reticulata, but not in the zona glomerulosa. Ultrastructurally, all products of c-fos-like immunoreaction were localized exclusively in the regions associated with the euchromatin in the nucleus of the immunoreactive cells. Moreover, a higher density of the immunoreactive cells in the adrenal cortex of pregnant rats was found with quantitative immunocytochemistry as compared to the non-pregnant. The characteristic zonation of c-fos-like immunoreactivity in the adrenal cortex suggest that the c-fos protein is involved in the normal function of the glucocorticoid-producing cells of mammalian adrenals. The numerical increase in the immunoreactive cells in pregnant rats implies that basal expression of the c-fos-like protein may vary with the functional state of the cortical cells.     

Melatonin-induced suppression of the pinealectomy-stimulated rat adrenal cortex mitotic activity

Pineal involvement in the regulation of adrenocortical mitotic activity has recently been suggested. It has been shown that melatonin (Mel) decreased the mean mitotic activity rate (MMAR) of the adrenal cortex both in vivo and in organ culture. The goal of the present study was to test the influence of pinealectomy (PX) and/or Mel-treatment on the MMAR of adrenocortical cells, as well as on the adrenal weight in rats. The stathmokinetic method was used in the study. It was found that PX significantly increased the MMAR of the adrenocortical cells. Moreover, Mel suppressed the proliferogenic effect of PX on the rat adrenocortical cells. Melatonin alone did not significantly affect the mitotic activity of the adrenal cortex. None of the three experimental procedures, i.e. Mel, PX and Mel-treatment of pinealectomized animals significantly affected the adrenal weight. The present data suggest that Mel may be involved in the inhibitory control of adrenocortical cell proliferation.     

Age and the effect of adrenocorticotropic hormone on aldosterone secretion in rats

Age-related changes in functional activity of the glomerular zone were studied in the adrenal cortex of Wistar rats. It was shown that secretion of the basic mineralocorticoid hormone aldosterone was decreased with age. The glomerular zone of old rats showed the reduced sensitivity to the stimulant action of corticotropin, marked by the pronounced reaction to less doses of the hormone administered. At the same time the reactivity and the range of shifts in the course of ACTH dosage build-up decrease with aging.     

Genetic determination of the response of the mouse hypothalamo-hypophyseo-adrenal system to cold and immobilization stress]

Peculiarities of the hypothalamo-pituitary-adrenal system (HPAS) reaction in mice of 8 inbred strains to a stress effect of the immoblization and of cold have been studied and a comparison of the effect with the reaction of the adrenal cortex to its direct stimulator--ACTH have been carried out. As a result of the study of the resting level of 11-hydroxycorticosteroids in peripheral plasma of inbred mice significant interstrain differences were found. A positive correlation between resting corticosteroids level and the reaction of HPAS to the stress in mouse strains under study was found, but none of them correlated with the reactivity of the adrenal cortex to ACTH.