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.     

Production of corticosterone in male homozygous Brattleboro rats

Plasma concentration, metabolic clearance rate and in vitro adrenal production of corticosterone were measured in Brattleboro male rats homozygous for diabetes insipidus (DI) and in Long-Evans male rats (LE) as controls in resting conditions, under stress caused by pentobarbitone anesthesia and surgery and after three days water deprivation. In resting animals, plasma concentrations and in vitro adrenal production of corticosterone were higher in DI rats than in LE rats. Under pentobarbitone anesthesia and surgery, plasma concentrations and metabolic clearance rate of corticosterone were slightly but not statistically lower in DI rats; however, the in vivo production rate of corticosterone was significantly lower. After three days water deprivation, increasing plasma corticosterone level was consistently higher in DI than in Le rats. These results are not in favour of a reduced glucocorticoid activity of the adrenal of DI rats and of an important role played by vasopressin on the stimulation of the hypothalamopituitary adrenal activity at least in resting conditions; its role may depend upon stressful circumstances.     

Influence of stress and phenobarbital on corticosterone metabolism during early postnatal life of rat

Postnatal changes in liver corticosterone metabolism in vitro were investigated in male rats pretreated for three days twice daily by physiological saline i.p./stress/ or by phenobarbital /20 mg/kg/. Perinatally, both stress and phenobarbital decrease corticosterone side chain metabolism while no change was observed in A ring reduction rate. In older animals no effect of the stress on corticosterone metabolism was observed. The inhibitory influence of phenobarbital on the side chain metabolism was still apparent at age of 14 days, but not in adult animals. The A ring reduction rate was increased by phenobarbital at age of 14 days and in adult animals.Measurements of serum corticosterone and corticosterone production by adrenal glands in vitro confirmed earlier reports showing that during perinatal period increased level of circulating corticosterone can be associated with minor or transient changes in adrenal cortex activity.It is concluded that changes in liver corticosterone metabolism are likely to play an important role in regulation of glucocorticoid activity perinatally when the responsiveness of pituitary-adrenal system to environmental stimuli is decreased.     

Acute starvation affects rat adrenal steroidogenesis

To determine how starvation affects adrenal steroidogenesis we measured the activities of 3 adrenal enzymes involved in corticosterone biosynthesis in a group of adult female rats. The animals were either starved for 7 days or fed ad libitum for the same period. Relative adrenal weight and plasma corticosterone levels were increased in the experimental group of animals compared to the control group (40 +/- 2 vs 27 +/- 1 mg/100 g body weight, P less than 0.001, and 45 +/- 4 vs 30 +/- 5 ng/dl, P less than 0.05 respectively). There were no differences in plasma ACTH levels between the groups (34 +/- 5 vs 26 +/- 4 pg/ml). 11-Hydroxylase activity was increased in the starved group of animals (18 +/- 3 vs 8 +/- 2 nmol/mg protein/min, P less than 0.01). 3 beta-Hydroxysteroid dehydrogenase and 21-hydroxylase activities were not different between the groups (19 +/- 2 vs 16 +/- 1 nmol/mg protein/min, and 100 +/- 10 vs 110 +/- 10 pmol/mg protein/min respectively). These results suggest that acute starvation in rats produces an increase in adrenal 11-hydroxylase activity.     

Effects of water deprivation on corticosterone production in the male Brattleboro rat genetically deprived of vasopressin

Effects of 72 h water-deprivation on plasma corticosterone concentration have been investigated in male Brattleboro rats homozygous for hypothalamic diabetes insipidus (DI) and in male Long-Evans rats (LE), as controls. To determine the global effect of water deprivation, drinking water deprived rats were compared with hydrated animals. Because water deprived rats showed a depressed food intake, to elucidate the specific effect of dehydration alone, drinking water deprived rats were compared with similar food-restricted but water supplied animals. Increases in adrenal weights and in plasma corticosterone content, following 72 h water-deprivation, were greater in DI than in LE rats. In LE rats, they seemed to be the result of both dehydration and denutrition. Conversely in DI rats lacking vasopressin, dehydration alone increased neither adrenal weights nor plasma concentration of corticosterone; the whole plasma corticosterone content was reduced. So, in DI rats, the global response to drinking water deprivation was essentially due to food restriction, whose effect was partly suppressed by dehydration. Whatever the circumstances, plasma concentrations of corticosterone were higher in DI than in LE rats. Interrelationships between water deprivation, stress, vasopressin and glucocorticoids are discussed.     

Hyperglycemia does not increase basal hypothalamo-pituitary-adrenal activity in diabetes but it does impair the HPA response to insulin-induced hypoglycemia

Recently, we established that hypothalamo-pituitary-adrenal (HPA) and counterregulatory responses to insulin-induced hypoglycemia were impaired in uncontrolled streptozotocin (STZ)-diabetic (65 mg/kg) rats and insulin treatment restored most of these responses. In the current study, we used phloridzin to determine whether the restoration of blood glucose alone was sufficient to normalize HPA function in diabetes. Normal, diabetic, insulin-treated, and phloridzin-treated diabetic rats were either killed after 8 days or subjected to a hypoglycemic (40 mg/dl) glucose clamp. Basal: Elevated basal ACTH and corticosterone in STZ rats were normalized with insulin but not phloridzin. Increases in hypothalamic corticotrophin-releasing hormone (CRH) and inhibitory hippocampal mineralocorticoid receptor (MR) mRNA with STZ diabetes were not restored with either insulin or phloridzin treatments. Hypoglycemia: In response to hypoglycemia, rises in plasma ACTH and corticosterone were significantly lower in diabetic rats compared with controls. Insulin and phloridzin restored both ACTH and corticosterone responses in diabetic animals. Hypothalamic CRH mRNA and pituitary pro-opiomelanocortin mRNA expression increased following 2 h of hypoglycemia in normal, insulin-treated, and phloridzin-treated diabetic rats but not in untreated diabetic rats. Arginine vasopressin mRNA was unaltered by hypoglycemia in all groups. Interestingly, hypoglycemia decreased hippocampal MR mRNA in control, insulin-, and phloridzin-treated diabetic rats but not uncontrolled diabetic rats, whereas glucocorticoid receptor mRNA was not altered by hypoglycemia. In conclusion, despite elevated basal HPA activity, HPA responses to hypoglycemia were markedly reduced in uncontrolled diabetes. We speculate that defects in the CRH response may be related to a defective MR response. It is intriguing that phloridzin did not restore basal HPA activity but it restored the HPA response to hypoglycemia, suggesting that defects in basal HPA function in diabetes are due to insulin deficiency, but impaired responsiveness to hypoglycemia appears to stem from chronic hyperglycemia.     

Cortico-adrenal function under simulated weightlessness during gestation in the rat--effects on fetal development

To examine the effects of simulated weightlessness on cortico-adrenal function and on fetal development, we suspended pregnant rats for 20 days. The levels of adrenal and plasma corticosterone were examined in mothers and in fetuses. The animal control group was kept single in standard cages. Growth of the suspended animals was repressed for the first 8 days of the experiment, but thereafter it increased greatly, as did the daily food intake. By the 18th day of the experiment, the body masses and food intake of the two groups were equal. No modification in circulating corticosterone was found. It appears that there is no stress in pregnant rats submitted to simulated weightlessness.     

Circadian rhythm of corticosterone in diabetic rats

We proposed that the circadian rhythm of corticosterone in diabetic rats would have a different pattern than that in non-diabetic control rats. To test this hypothesis, 20 male Sprague-Dawley rats were given ad libitum access to a stock diet and housed individually in a light and temperature controlled room. Ten rats were made diabetic by two subcutaneous injections of streptozotocin. Ten rats which were not injected served as controls. Thirteen days after induction of the diabetes, tail blood samples were taken every 4 h for 24 h. Plasma corticosterone levels were significantly higher in diabetic rats than in control rats at 3 time points during the light cycle; however, concentrations were similar during the dark cycle. We speculate that diabetes may cause alterations in the steroid feedback mechanism to the hypothalamus and/or pituitary, resulting in an abnormal circadian rhythm of plasma corticosterone.     

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.     

Plasma corticosterone and restraint induced gastric pathology: age-related differences after administration of corticotropin releasing factor

Corticotropin releasing factor (CRF) or saline was administered i.p. to rats aged either 100 or 220 days, followed by either brief handling or water immersion restraint. Plasma corticosterone was measured 75 min. later. Age of the animals in itself was not a significant factor either for basal levels of plasma corticosterone or for extent of restraint induced gastric pathology. However after CRF administration, young but not older animals revealed a significant increase in plasma corticosterone levels, and post restraint gastric ulcerations were more severe in older than young animals. CRF significantly decreased the number of restraint induced ulcers in young rats, while the cumulative ulcer length was increased in older animals.     

Steps of glucocorticoid action in normal and diabetic rat placenta

This investigation examined the effects of Streptozotocin diabetes in pregnancy on several parameters of glucocorticoid action in the rat placenta. Pregnant diabetic rats showed reduced body weight, increased adrenal weight and serum corticosterone concentrations. Glucocorticoid receptors in placental cytosol of labyrinthine zone, measured in the absence of MoO4Na2 were similar in control and diabetic rats, but after addition of MoO4Na2 receptor number were moderately, but significantly reduced in diabetic placentas (P less than 0.01). No changes in affinity were detected in saturation analysis. Furthermore, transformation of the receptor assessed by its capacity for binding to DNA-cellulose, was enhanced in diabetic animals, suggesting increased efficiency of the receptor-bound hormone. Since the function of the glucocorticoid receptor of rat placenta may be the inhibition of local progesterone production (Heller and De Nicola, J. steroid Biochem. 19 (1983) 1339-1343), we determined progesterone synthesis in vitro and found that diabetic placentas synthesized significantly less progesterone than control tissue (P less than 0.05). Lastly, we found that the metabolism of corticosterone to 11-dehydrocorticosterone, while declining in control placentas as pregnancy advanced, it was sustained in diabetic pregnancy. It is suggested that diabetic rat placentas showed increased activity towards the glucocorticoid receptor, resulting in reduction in progesterone synthesis and sustained catabolism of corticosterone. The latter may possibly constitute a compensatory mechanism to protect the fetal compartment from high levels of maternal glucocorticoids.     

Stress-induced changes of glucocorticoid receptor in rat liver.

The effect of corticosterone injection and of acute and repeated stress on rat liver cytosol glucocorticoid receptor was studied to ascertain whether corticosterone-induced glucocorticoid receptor (GR) regulation also takes place in intact animals as it does in adrenalectomized ones. Adult male rats were exposed to six different stressors (swimming, 10 mg/kg histamine i.p., 500 mU/kg vasopressin s.c., heat, immobilization and cold) acutely or three times daily for 18 days (repeated stress). Each of the stressors applied acutely provoked a pronounced increase of plasma corticosterone with subsequent induction of hepatic tyrosine aminotransferase activity. Depletion of cytosol receptor was however only noticed after swimming and histamine injection. On the other hand, sustained hypersecretion of corticosterone evoked by repeated stress significantly reduced the number of GR in rat liver cytosol without any change in Kd. It is concluded that in the presence of intact adrenal glands cytosol receptors are more resistant to corticosterone-induced depletion than in their absence. Further, repeated stress causes down-regulation of GR in the liver, most probably by sustained corticosterone secretion, yet the effect of other stress factors cannot be excluded.     

Effects of insulin perfusion and altered glucose concentrations on heart function in 3-day and 6-week diabetic rats

Diabetes is known to result in depression of myocardial function, whereas hearts from insulin-treated diabetic rats exhibit functional characteristics similar to controls. In the present study, we have studied the effect of insulin perfusion on cardiac performance of 3-day and 6-week streptozotocin (STZ) diabetic rats. Three days of diabetes did not result in depressed cardiac performance when the hearts were isolated and perfused in the working heart mode. Increasing the concentration of glucose from 5 to 10 mM in the perfusion fluid did not alter the function in either control or in diabetic rat hearts. However, when regular insulin or glucagon-free insulin (Humulin) (5 mU/mL) was included in the perfusion medium, the ventricular function of hearts from control rats was significantly enhanced, while diabetic myocardial function remained unaffected. When the study was repeated on hearts from 6-week diabetic animals, cardiac function of diabetic rats was significantly depressed as compared with controls. As in the 3-day study, contractility was not affected in either group by increasing glucose concentration in the perfusion medium. Again, inclusion of insulin in the medium enhanced cardiac contractility only in control hearts. These results suggest that diabetes results in a loss of myocardial sensitivity to insulin which seems to occur as early as 3 days after induction of diabetes with STZ. The study also demonstrates that the beneficial effects of in vivo insulin treatment on myocardial alterations induced by diabetes are not due to its direct myocardial effects.     

Interleukin 1: a regulatory role in glucocorticoid-regulated hepatic metabolism

The purpose of this study was to investigate the effect of interleukin 1 (IL 1) on glucocorticoid-regulated hepatic metabolism. Steroid binding in liver cytosol, plasma glucose, plasma corticosterone, and phosphoenolpyruvate carboxykinase (PEPCK) activity were assayed in C3H/HeJ mice after IL 1 administration. Mice received 5 pyrogenic U (PU) of rabbit IL 1 i.p. and were sacrificed 4 hr later. In adrenal-intact mice, steroid binding and plasma glucose were significantly decreased (63 and 64% of control) and plasma corticosterone was significantly elevated threefold. In adrenalectomized mice, IL 1 (5 PU) treatment produced similar results in steroid binding (66% of control) and plasma glucose (71% of control). PEPCK was measured in intact mice fasted overnight and treated with 5 PU of IL 1. PEPCK was induced in fasted control animals (23.1 +/- 1.4 U/mg) vs fed control animals (15.9 +/- 0.7 U/mg). IL 1 treatment inhibited the induction of PEPCK in fasted animals (13.4 +/- 2.0 U/mg) and caused a significant decrease in steroid binding (78% of fasted control) and plasma glucose (82% of fasted control). No difference in plasma corticosterone was seen in IL 1-treated mice and fasted control mice. These data indicate that IL 1 decreases intracellular steroid receptors, resulting in decreased induction of PEPCK and subsequent reduced gluconeogenesis and plasma glucose. We propose that IL 1 plays a regulatory role in glucocorticoid-regulated hepatic metabolism.     

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.     

模拟高原低氧对新生大鼠肾上腺皮质功能发育的影晌

本文探讨新生大鼠肾上腺皮质对高原低氧的应答及模拟高原低氧对其功能发育的影响。结果表明,当不同日龄大鼠暴露于５ｋｍ及７ｋｍ海拔２４ｈ,７ｄ、１４ｄ龄大鼠肾上腺皮质无明显应答反应。２１ｄ及２８ｄ龄大鼠肾上腺皮质酮水平随海拔增高而增加,血浆皮质酮表现为抑制作用。当１ｄ龄新生大鼠在５ｋｍ海拔高度发育３ｄ和７ｄ,其肾上腺皮质功能无异于正常发育大鼠;但发育１４ｄ、２１ｄ及２８ｄ,其血液及肾上腺中皮质酮含量均明显低于对照组,肾上腺皮质功能发育严重受抑     

Lack of release of ACTH from the denervated rat pars intermedia in vivo.

The purpose of this study was to ascertain whether the pars intermedia of the rat adenohypophysis, isolated from direct innervation via the infundibular stem, could maintain adrenal cortical weight and plasma corticosterone levels. We compared the adrenal cortical response of rats 40 days after either complete hypophysectomy, hypophysectomy with reinsertion of only the pars distalis, or hypophysectomy with reinsertion of only the nervosa-intermedia. Adrenal weight and plasma corticosterone levels were partially maintained in the group with reinserted pars distalis. These parameters were not different from the complete hypophysectomy group in the animals with reinserted nervosa-intermedia. Thus, the pars intermedia, with its nerve supply disrupted, cannot maintain adrenal cortical function.     

Differential regulation of adrenal corticosteroids after restriction-induced drinking in rats

Water-restricted rats exhibit a rapid decrease in plasma corticosterone after drinking. The present study examined the effect of restriction-induced drinking on plasma aldosterone and plasma clearance of corticosterone. Rats were water restricted for 6-7 days and then killed before or 15 min after water administration; plasma and adrenal hormones were assayed. Plasma and adrenal corticosterone decreased after drinking without a change in plasma corticosteroid-binding globulin; plasma ACTH decreased or did not change. In contrast, plasma aldosterone did not change or increased after drinking; plasma renin activity was elevated by water restriction and increased further after drinking. In another experiment, rats were adrenalectomized, and corticosterone and aldosterone were replaced with pellets and osmotic minipumps, respectively. Rats were water restricted and killed. There was a small decrease in plasma corticosterone but no change in aldosterone after drinking in adrenalectomized animals. These data suggest that changes in plasma steroids after restriction-induced drinking result from zone-specific responses of the adrenal to known secretagogues, with minimal contribution from increased plasma clearance.     

Adrenal function in female rats before puberty: the effects of gonadectomy

The following study was designed to test whether the change in the amplitude of the adrenal rhythm and the response to stress seen at puberty in female rats is dependent upon stimulation of the adrenal system by gonadal steroids. Rats were gonadectomized either at two days of age or at 21 days of age and periodic blood samples were taken by cardiac puncture and assayed for corticosterone (B) by a fluorometric procedure. Ovariectomy at weaning age (21 days) had no effect on adrenal function until the time of normal puberty onset. In intact animals, a rise in resting levels of corticosterone and an increase in the incremental response to ether stress was noted at 35 days of age. (Puberty in females was 35.3 ± 1.2 days as indicated by vaginal opening). Ovulation occurred the following day in 9/10 rats. Gonadectomy at two days of age had essentially the same effect as later gonadectomy in females. By 70 days of age, resting corticosterone values and stress responses in gonadectomized females reached levels similar to intact females. It is concluded that an independent adrenarche can occur in females but that gonadal steroids present at the time of puberty modulate the timing of this process.     

Changes in the hypothalamo-pituitary-adrenocortical and hypothalamo-pituitary-thyroid axes in diabetic rats acclimated to moderate hyperthermic environment

We examined the effect of acclimation to moderate hyperthermic environment on the ACTH, TSH, T₃, T₄ and corticosterone level, as well as the relative weight of hypophysis, thyroid and adrenal glands in streptozotocin-diabetic rats. Increased activity of the hypothalamo-pituitary-adrenocortical (HPA) axis has been demonstrated in diabetic animals, whereas insulin treatment restores the changes. Heat acclimation reduces the level of ACTH and corticosterone in control animals and moderates the hormonal disturbances caused by diabetes. Simultaneously, our study revealed impairment in the activity of the hypothalamo-pituitary-thyroid (HPT) axis. Acclimation to 35±1 °C resulted in significantly lower T₃ and T₄ levels in control, diabetic and insulin-treated animals. Relative weight of the hypophysis, thyroid and adrenal glands is decreased in heat-acclimated rats. Our assumption is that there might be a cross tolerance between diabetes and heat acclimation on a hormonal level.