Effect of stress on the acetylcholinesterase activity of the hypothalamus-pituitary-adrenal axis in the rat

Acetylcholinesterase (AchE, EC 3.1.1.7) activity was determined in cerebral cortex, hypothalamus, adenohypophysis and adrenal gland in response to acute and chronic stress. Chronic exposure of animals to cold stress (at 4 degrees C for 7 days) resulted in significant decline of AchE activity in all tissues studied. Similar results were obtained when animals were exposed to acute immobilization and cold stress (at 4 degrees C) simultaneously. In another experiment, animals were treated with 2 mg/kg of corticosterone prior to AchE determination. Corticosterone administration resulted in a significant decline in AchE activity of the cortex, the hypothalamus and the adrenal but failed to affect the adenohypophysis AchE level. Exposing adrenalectomized animals to acute stress resulted in no significant changes in the cortex and the hypothalamus but caused a significant decline in AchE of the adenohypophysis. It was concluded from this study that corticosterone might mediate the stress effect on AchE activity.     

Establishing baseline values of parameters potentially indicative of chronic stress in red deer (<Emphasis Type="Italic">Cervus elaphus</Emphasis>) from different habitats in western Germany

The use of habitats by wild animals is commonly assumed to be decreasing due to human activities, such as tourism or the installation and use of wind-energy plants. These anthropogenic interferences may subject animals to chronic stress. To be able to objectively characterise the effects on animal populations or on individual animals, the collection of data that might be suitable to monitor such chronic stress is required. In this study of hunted red deer, we report data that are related to adrenal activity and are not affected by the acute stress induced by hunting. Adrenal glands and samples from ileal digesta were collected from 75 hunted deer from seven different habitats in the German Rhineland. The adrenal glands were evaluated histomorphometrically; in the digesta, the concentration of cortisol metabolites, i.e. of 11,17-dioxoandrostanes (11,17-DOA), was measured. Digesta were also examined for parasites. Animals were grouped according to age, sex, habitat, and hunting method. Animals were infected with gastrointestinal helminths and lungworms; examination for liver flukes was negative. Significant differences were not established among the different groups for any of the recorded parameters. For sex, a tendency (P=0.11) towards higher DOA levels was observed in female deer when compared to male deer. The variability of the parameters together with the lack of identifiable influences of hunting indicates that chronic stress might indeed have been a relevant factor. However, none of the parameters analysed can presently be validly used to evaluate habitat quality for red deer since physiological stressors cannot be differentiated.     

Chronic hypoxia induced ultrastructural changes in the rat adrenal zona glomerulosa

The adrenal cortex plays an important role in adaptation to various forms of stress, including hypoxia. While physiological changes in the aldosterone metabolism during hypoxia have been extensively described, few studies have focused on the morphological changes in the adrenal glands under chronic hypoxia. We studied the ultrastructure of the zona glomerulosa of 6-month-old Wistar rats exposed to chronic normobaric hypoxia. Animals were divided into two groups: control (n=12) and hypoxic (n=12). In this latter group, the animals were kept at 7% O2 concentration after a gradual adaptation (21, 15, 12, 10, 8, 7 vol% O2). The duration of the study was 112 days. In comparison with normoxic rats, body weight and adrenal gland weight of hypoxic animals was significantly reduced by 18.5% (p=0.006) and 14.7% (p=0.001) respectively. The thickness of the zona glomerulosa decreased due to atrophy of cells. The main ultrastructural changes observed were: 1) a decrease in, or complete elimination of, lipid droplet content; 2) a marked increase in lysosome number; and 3) the presence of giant mitochondria. Our findings show that rats fail to adapt to severe chronic hypoxia. The ultrastructural changes in the zona glomerulosa found in the present study could reflect changes in the aldosterone pathway.     

Abnormal regulation of adrenal function in rats with streptozotocin diabetes.

The factors that control adrenal steroid secretion and metabolism were investigated in rats made diabetic with Streptozotocin (65 mg/kg) and used one month after treatment. Diabetic animals possessed high resting levels of plasma corticosterone accompanied by adrenal hypertrophy; the showed an increased response to the stress of i.p. cold water injection. Moreover, the pituitaries of diabetic rats seemed to be releasing ACTH continuously and not storing it. Upon adrenal inhibition with Aminoglutethimide the expected increase in adrenal cholesterol and weight was of a smaller magnitude than in controls. The activity of liver enzymes that reduce ring A of corticosterone showed decreased activity in diabetics, which suggests that more corticosterone rather than its inactive metabolites were available to--but not able to suppress--the steroid feedback sites. The half-life of corticosterone in blood was similar in diabetes and controls. These results suggest that (a) diabetic animals were in a chronic stress condition; (b) the threshold for steroid feedback was less sensitive to variations in plasma corticosterone; (c) there is an abnormal peripheral disposal of corticosterone, but that other factors, besides the liver, regulate the clearance of the hormone from the circulation in the diabetic animals.     

Altered Function of Peripheral Organ Systems in Rats Exposed to Chronic Mild Stress Model of Depression

1. In depression, psychiatric symptoms are frequently associated with impaired cardiovascular function and perhaps also increased risk for cancer diseases. Pathophysiological basis of this comorbidity is not clearly understood. Molecular events involved, particularly factors modified by chronic stress exposure, may only be evaluated in animal models of depression.2. Present experiments were aimed to study parameters related to cardiovascular system (tyrosine hydroxylase (TH) gene expression in adrenal glands) and carcinogenesis (retinoic acid receptors in the liver) in the chronic mild stress model of depression.3. Chronic mild stress induced a rise in adrenal TH gene expression in both male and female rats. Gender dependent changes were found in retinoic acid receptor binding with stress-induced activation in females but not males. Ovariectomized animals exhibited higher retinoic acid receptor binding, slightly elevated TH mRNA levels and failed to respond to chronic mild stress exposure with further increase in TH mRNA levels. Similarly, chronic mild stress induced an anhedonic state manifested by decreased sucrose preference in control but not ovariectomized rats.4. Presented data document that central neurochemical and behavioral changes in animals exposed to chronic mild stress model of depression are associated with changes in adrenal TH gene expression and with gender dependent changes in retinoic acid receptor status in the liver. Such alterations may participate in the development of pathological changes and could participate on increased risk for cardiovascular and oncologic comorbidity in depressive patients.     

Chronic stress and its effects on adrenal cortex apoptosis in pregnant rats

The model of chronic intermittent stress by immobilization during pregnancy may produce alterations in the mechanisms that maintain adrenal gland homeostasis. In earlier investigations using this model, significant variations in plasma prolactin and corticosterone levels, and adrenal gland weights were observed. We hypothesized that chronic stress causes changes in apoptosis in the adrenal glands of pregnant rats. We identified and quantified apoptotic cells in the adrenal cortex and examined their ultrastructural characteristics using transmission electron microscopy. Adrenal glands of pregnant rats at gestation days 12, 17 and 21 were studied for control and experimental (stressed) rats. Immunolabelling techniques, stereological analysis and image quantification of adrenal gland sections were combined to determine differences in apoptosis in the different cell populations of the adrenal cortex. The apoptotic index of the experimental rats showed a significant reduction at gestation day 17, while at days 12 and 21 there were no differences from controls. Moreover, the apoptotic index of the reticular zones in control and experimental animals showed a significant increase compared to the glomerular and fascicular zones at the three gestation times studied. Chronic stress by immobilization reduced the caspase-dependent apoptotic index at gestation day 17, which may be related to variations in plasma concentrations of estrogens and prolactin.     

The pituitary-adrenal response to ether stress in the spontaneously hypertensive and normotensive rat

The pituitary-adrenal response to ether stress in the spontaneously hypertensive (SHR) and normotensive (WKYN) rat was investigated at three time intervals: 0, 30, and 60 min after exposure to ether vapor. Plasma corticosterone concentrations were significantly higher in the WKYN than SHR rat before stress (0 min), and 30 min after stress. However, 60 min following ether stress the magnitude of increase in plasma and adrenal concentration of corticosterone over basal values was greater in the SHR line than in the WKYN line. The adrenal response to IV administration of 100 μU of ACTH was equivalent in the two lines. The data suggest that the prolonged adrenal response to ether stress in the SHR line is the result of a greater or more prolonged secretion of ACTH in that line than in the WKYN animals.     

Involvement of the adrenal glands in the action of the atrial natriuretic factor

Adrenalectomized, medullectomized and sham operated rats were treated with either a chronic infusion or a bolus injection of the synthetic atrial natriuretic factor (ANF). ANF did not enhance natriuresis and diuresis in sham operated conscious animals during chronic infusion, but it had a potent action when injected as a bolus into anesthetized rats. The absence of the whole adrenal glands, but not adrenal medulla profoundly modified the renal response to ANF: a) following chronic administration of ANF, the baseline natriuresis paradoxically decreased in adrenalectomized rats, and b) in response to a bolus injection of ANF the natriuretic and diuretic actions of the peptide were attenuated in these animals. The medullectomy-induced decreased natriuresis and dopamine excretion were corrected by ANF infusion. Furthermore, ANF suppressed the compensatory increase of norepinephrine excretion secondary to adrenalectomy. The data suggest that the presence of the adrenal cortex is necessary for the natriuretic and diuretic actions of ANF. The decrease in urinary DA excretion may reflect diminished dopaminergic activity and contribute to the post-medullectomy antinatriuresis, a phenomenon which can be corrected by ANF infusion. ANF may also have a depressing activity on the increased sympathetic tone.     

Stress causes tissue-specific changes in the sialyltransferase activity

Numerous pathological conditions are associated with specific changes in glycosylation. Recent studies clearly demonstrated a link between stress and the development and course of many diseases. Biochemical mechanisms that link stress and diseases are still not fully understood, but there are some indications that changes in glycosylation are involved in this process. Influence of acute and chronic psychological stress on protein sialylation as well as the activity of sialyltransferases, enzymes that synthesize sialoglycoproteins, has been studied on Fischer rats. Liver, spleen, kidney, skeletal muscle, heart, adrenal gland, serum, cerebellum, hippocampus, medulla oblongata and cortex have been analyzed. Statistically significant tissue- and type of stress-specific changes in total sialyltransferase (ST) activity were observed. Acute stress resulted in 39% increase of ST activity in liver and spleen, while at the same time there was 43% decrease in ST activity in cerebellum. In chronic stress, ST activity increased in spleen (93%) and decreased in liver (17%), cerebellum (38%) and hippocampus (64%). Western-blot analysis using Maackia amurensis and Sambucus nigra lectins did not reveal any difference in protein sialylation. The results of serum corticosterone analysis indicate that showed increase in acute stress and decrease in chronic stress are in good accordance with the hypothesis that corticosterone has a role in the regulation of liver ST activity.     

Comparative study of perturbations of peripheral markers in different stressors in rats

Stress has been implicated in the etiopathogenesis of several diseases. In the present study, the effects of acute (AS), chronic (CS), and chronic unpredictable stress (CUS) were studied on the ulcer index, adrenal gland mass, and biochemical and hormonal changes in rats. The stress was provided in the form of immobilization-immobilization for 150 min, once only, and for 10 consecutive days in CS and CUS. In CUS, animals received variable unpredictable stressors. Immediately after stress, animals were decapitated, blood was collected, and plasma was separated for the estimation of plasma glucose, triglyceride, cholesterol, creatine kinase (CK), corticosterone, and insulin. The adrenal gland and stomach were also dissected for mass and ulcer scoring, respectively. AS significantly increased the ulcer index, plasma glucose, CK, corticosterone, and insulin. CS and CUS significantly increased the ulcer index, adrenal gland mass, and corticosterone. In CS, a significant decrease in plasma triglyceride and cholesterol levels was found, but in CUS only cholesterol was decreased significantly. High CK activity and hyperglycemia maintain the energy demands of metabolism, and elevated corticosterone desensitizes the insulin receptor in AS. In CS and CUS, prolonged elevation of corticosterone shifts metabolism to utilization of lipids as a secondary substrate by gluconeogenesis. From our experiment, it is clear that AS causes maximum activation of energy metabolism, which becomes specific after habituation in prolonged CS. These biochemical manipulations in the body by using different types of stressors are good markers that can be of great use to understand, target, and manage stress-induced etiologies.     

Effects of neonatal handling on sympathoadrenal activity and body composition in adult male rats

Neonatal handling permanently alters the hypothalamic-pituitary-adrenal (HPA) response to stress. Because the sympathetic nervous system (SNS) and adrenal medulla also participate in stress responses, the impact of daily handling between birth and weaning on SNS and adrenal medullary function was examined in adult rats using techniques of [(3)H]norepinephrine ([(3)H]NE) turnover and urinary catecholamine excretion. Handled animals exhibited a 23% reduction in [(3)H]NE turnover in heart and a 53% decrease in spleen. [(3)H]NE turnover in brown adipose tissue, stomach, and kidney did not differ between handled and nonhandled animals. In contrast, urinary epinephrine (Epi) excretion was significantly greater in handled rats in response to a 3-day fast than in nonhandled animals. Although body weight, weight gain in response to dietary enrichment with sucrose or lard, or body fat content did not differ in handled and nonhandled animals, handled rats displayed heavier abdominal fat depots than nonhandled animals, implying a difference in body fat distribution. Neonatal handling thus leads to decreased sympathetic activity within specific subdivisions of the SNS and, by contrast, to increased adrenal medullary responsiveness.     

Adrenal function of rats in hypokinesia

Histological and biochemical examinations of the adrenals and plasma of rats for 3 months exposed to hypokinesia have shown that low motor activity led to a decrease in blood corticosterone level in spite of adrenal cortex hypertrophy. The decreased corticosterone blood level was not indicative of adrenal exhaustion, as the adrenals produced a greater amount of corticosterone in response to additional stress stimulus (5-hour immobilisation of animals in an extended state), as compared to the control. The increased production of corticosterone in response to stress stimulus caused no structural transformations or delipoidization of the cortical substance. This indicated that the reserve potentials of the adrenals increased with the animal adaptation to hypokinesia. The major morphological indication of higher adrenal functional activity in hypokinetic animals was an enhanced destruction of lymphocytes in the thymus cortex, the target organ for corticosteroids produced by the adrenals in response to an additional stress stimulus.     

Recurrent long-lasting tethering reduces BDNF protein levels in the dorsal hippocampus and frontal cortex in pigs

Brain-derived neurotrophic factor (BDNF) signaling has been implicated in the onset of depression and in antidepressant efficacy, although the exact role of this neurotrophin in the pathophysiology of depression remains to be elucidated. Also, the interaction between chronic stress, which may precede depression, corticosteroids and BDNF is not fully understood. The present study aimed at investigating whether long-lasting, recurrent tethering of sows during a period of 1.5 or 4.5 years leads to enduring effects on measures that may be indicative of chronic stress, compared with animals kept in a group housing system ('loose' sows). Immediately after slaughter, the frontal cortex, dorsal and ventral hippocampus were dissected and protein levels of BDNF and its receptors were analyzed and compared with plasma cortisol levels and adrenal weights. Results indicate that tethering stress reduced BDNF protein levels in the dorsal hippocampus and the frontal cortex, but not in the ventral hippocampus. In addition, levels of TrkB, the high affinity receptor for BDNF, were increased in the dorsal hippocampus. Plasma cortisol levels and adrenal weight were increased after tethering. These stress effects on BDNF levels were more pronounced after 4.5 years of recurrent tethering and negatively correlated in particular in the frontal cortex with cortisol levels and adrenal weight. This suggests that the stress effect of tethered housing on neurotrophin levels may be mediated via cortisol. Taken together, these data indicate that recurrent tethering stress in sows over 4.5 years results in a loss of neurotrophic support by BDNF, mediated by an overactive neuroendocrine system.     

The influence of streptozotocin diabetes on adrenal function in male rats.

Male Wistar rats were treated with an i.v. dose of 100 mg/kg of Streptozotocin (STZ). Either 5 days or 1, 2 or 3 months after induction of diabetes, the adrenal function of these animals was studied. Short course diabetes (5 days) was accompanied by adrenal hypertrophy and high plasma corticosterone levels; during later periods the diabetic rats consistenly showed signs of adrenal hyperactivity, yet both adrenal weight and plasma corticosterone tended to be lower than in the 5 day-treated animals. Adrenal incubations with 14C-progesterone showed that 5 days and one month diabetic animals synthesized more deoxycorticosterone than controls; production of corticosterone and 18-hydroxydeoxycorticosterone was normal at all time periods studied. Synthesis of 18-hydroxycorticosterone, a compound which affects sodium metabolism, was increased in 5 day-treated rats; thereafter, the function of the zona glomerulosa seemed to be impaired in diabetic rats. These results suggest that early after induction of diabetes there is adrenal hyperfunction of the mixed type (i.e. gluco and mineralcorticoid), and that in the later periods (2-3 months), the deranged metabolism of the diabetic rat acts as a chronic stress.     

Long-term behavioral and neuroendocrine alterations following chronic social stress in mice: implications for stress-related disorders

The period of adolescence is characterized by a high vulnerability to stress and trauma, which might result in long-lasting consequences and an increased risk to develop psychiatric disorders. Using a recently developed mouse model for chronic social stress during adolescence, we studied persistent neuroendocrine and behavioral effects of chronic social stress obtained 12 months after cessation of the stressor. As a reference, we investigated immediate effects of chronic stress exposure obtained at the end of the chronic stress period. Immediately after the 7 week chronic stress period stressed animals show significantly increased adrenal weights, decreased thymus weight, increased basal corticosterone secretion and a flattened circadian rhythm. Furthermore, stressed animals display an increased anxiety-like behavior in the elevated plus maze and the novelty-induced suppression of feeding test. Hippocampal mineralocorticoid receptor (MR) and the glucocorticoid receptor (GR) mRNA levels were significantly decreased. To investigate persistent consequences of this early stressful experience, the same parameters were assessed in aged mice 12 months after the cessation of the stressor. Interestingly, we still found differences between formerly stressed and control mice in important stress-related parameters. MR expression levels were significantly lower in stressed animals, suggesting lasting, possibly epigenetic alterations in gene expression regulation. Furthermore, we observed long-term behavioral alterations in animals stressed during adolescence. Thus, we could demonstrate that chronic stress exposure during a crucial developmental time period results in long-term, persistent effects on physiological and behavioral parameters throughout life, which may contribute to an enhanced vulnerability to stress-induced diseases.     

Stress-induced adrenal changes and their relation to reproductive failure in captive nine-banded armadillos (Dasypus novemcinctus)

Histological features of adrenal glands from captive and unstressed free-ranging nine-banded armadillos were compared to determine if undefined stress factors associated with captivity were capable of causing changes in adrenal morphology. Animals in captivity less than 3 mo showed histological features identical to unstressed free-ranging animals. Animals in captivity 6 mo or longer, however, showed adrenal changes like those previously described in other mammals exposed to various types of stress, except that there was no accompanying increase in adrenal weight. Similar adrenal changes were found in free-ranging animals exposed to extremely harsh winter weather. Females from both the chronic captive population and this stressed free-ranging population were seen to suffer reproductive failure. Reproductive function in males was not affected. There was no detectable sex difference in gross or histological adrenal changes; however, previous reports indicate there is a sex difference in the secretory product from the adrenals of captive nine-banded armadillos. A possible relationship between reproductive failure in the female and the sex difference in adrenal secretory products is discussed.     

Selenium deficiency impairs corticosterone and leptin responses to adrenocorticotropin in the rat

Selenium deficiency causes oxidative stress and impairs steroidogenesis in vitro. Leptin is closely related to the hypothalamo-pituitary-adrenal (HPA) axis. Leptin inhibits the HPA axis at the central level while corticosteroids have been shown to stimulate leptin secretion in most studies. We hypothesized that oxidative stress impairs adrenal steroidogenesis and decreases leptin production in vivo. The goal of this study was to investigate in rats the effects of selenium deficiency and oxidative stress on adrenal function and on leptin concentrations. Weanling rats were fed a selenium-deficient (Se-) or selenium-sufficient (Se+) diet for 4-10 weeks. Selenium deficiency caused a marked decrease in liver (> or = 99%) and adrenal (> or = 81%) glutathione peroxidase (GPx) activities. Selenium deficiency did not affect basal and short-term adrenocorticotropin (ACTH) stimulated corticosterone or leptin concentrations. In contrast, after long-term ACTH stimulation, selenium deficiency caused a doubling in adrenal isoprostane content and blunted the increase in corticosterone and leptin concentrations observed in Se+ animals. Plasma leptin concentrations were 50% lower in Se- compared to Se+ animals following long-term ACTH. Our results suggest that oxidative stress causes a decrease in circulating corticosterone in response to ACTH, and, as a consequence, a decrease in plasma leptin concentrations.     

Effect of ACTH and glucocorticoids on plasma prolactin levels in the male rat

Relationships between prolactin and adrenal secretion were studied in the adult male rat by different experimental approaches. Administration of a long acting 1-24 ACTH preparation during 11 days induced a significant decrease in plasma prolactin levels. Adrenalectomy on the contrary resulted in an increase of prolactin levels that were not affected by ACTH treatment. Dexamethasone administration to intact or adrenalectomized animals resulted in a significant reduction of plasma prolactin in both cases. In order to elucidate if the inhibitory effect of the adrenal stimulation on prolactin was mediated through the blockade of endogenous ACTH, stimulation of hypothalamic-pituitary-adrenal axis with chronic intermittent immobilization stress was performed. Stress induced a significant elevation in plasma corticosterone levels, together with a decrease in prolactin values. These data indicated that the inhibitory role of ACTH and stress on prolactin secretion was mediated through the adrenal glucocorticoid stimulation.     

Observations on spontaneous pathological lesions in chacma baboons (Papio ursinus)

Some pathological findings made in more than 3000 autopsies on Chacma baboons (Papio ursinus) are reviewed. Diarrhea is frequent among newcomers in the Primate Colony at the University of Stellenbosch and is possibly related to the stress of adaptation to captivity. Strict control of the water balance of sick animals prevents losses. In 63% of diarrheic baboons cortical adrenal necroses were found. About 10% of the autopsied baboons had a cardiomyopathy. In 50% of the baboons with necrotizing cardiomyopathy adrenal cortical necroses were found. In contrast to man, the Chacma baboon deposits inhaled inert dust in small granulomata similar to early cellular lesions of silicosis. Pyelonephritis unrelated to experimental procedures was found in 0.3%. Six cases of chronic glomerulonephritis were encountered. The inclusion of the lower parathyroids in the thyroid must be considered as a normal finding in Chacma baboons; thymic inclusions in the thyroid are more common than in man. On the whole, there are only minor differences in pathological reactions between Chacma baboon and man, but the former is much less resistant to stress than the latter.