Augmented ACTH responses to stress in adrenalectomized rats replaced with constant, physiological levels of corticosterone are partially normalized by acute increases in corticosterone

Adrenalectomized rats replaced with constant, physiological levels of corticosterone via a subcutaneous pellet (Pellet) have normal basal morning ACTH but exhibit enhanced and prolonged ACTH responses to stress vs. sham-operated (Sham) rats. It has not been determined if the lack of either stress-induced or circadian increases in corticosterone, both of which are missing in Pellet rats, may account for this enhanced response. To test the extent to which stress-associated increases in corticosterone alone can normalize stress-induced hypersecretion of ACTH, we approximated endogenous secretion by injecting additional corticosterone in Pellet rats via an indwelling subcutaneous cannula, 5 min before hypoxia stress (10% O2). A corticosterone dose of 666 micrograms/kg (Pellet+B), but not 333 micrograms/kg (Pellet+Low B), produced plasma corticosterone levels comparable to those in Shams and normalized stress-induced but not post-stress plasma ACTH. Administration of the type II corticosteroid receptor antagonist RU 38486 30 min before corticosterone reversed this inhibition. We conclude that enhanced ACTH responses to stress in Pellet rats result in large part from lack of type II receptor-mediated feedback inhibition by corticosterone increases during stress, although prior circadian increases in corticosterone may also be required.     

Prolonged stress-induced elevation in plasma corticosterone during pregnancy in the rat: implications for prenatal stress studies

Experiments were conducted to test the hypothesis that exposure to uncontrollable stress during pregnancy results in a heightened elevation of plasma glucocorticoids. Rats were exposed to uncontrollable electric tail shocks every other day during the 3 weeks of pregnancy. Plasma corticosterone concentrations in stressed dams increased significantly from gestation days 4 to 20. Importantly, this increase in plasma corticosterone occurred 24- and 48-h after exposure to stress suggesting a prolonged elevation in stress-induced glucocorticoid secretion. In addition, the stress-induced rise in plasma corticosterone was accompanied by a significant decrease in maternal levels of corticosteroid binding globulin which suggests increased circulating levels of free corticosterone. Significant stress-induced elevations in plasma corticosterone also occurred in fetuses that were examined on gestation day 20. Furthermore, a significant positive correlation was found between maternal and fetal plasma corticosterone. Results demonstrate that repeated exposure to uncontrollable stress increases plasma concentrations of glucocorticoids throughout pregnancy. In the unbound state, corticosterone may be highly effective in producing alterations in brain development of offspring. These data have important implications for understanding the process underlying the effects of prenatal stress.     

Effects of afferent and efferent celiac nerves on acute gastric lesions: due to changes in blood flow?

Since ablation of afferent nerves prior to stress results in increased severity of acute gastric mucosal lesions, afferent nerves are thought to mediate protective mechanisms in the stomach. These mechanisms are known to include vasodilation of gastric mucosal vessels; vasodilation is thought to allow the gastric mucosa to respond to injurious substances. However, it is not known whether other aspects of mucosal health, independent of those caused by increased blood blow, are affected by afferent blockade. This study compared gastric blood flow and acute gastric mucosal lesions during stress in rats with either chemical sympathectomy or afferent blockade. The purpose of the study was to compare the lesion index and blood flow in each treatment group. The lesion index was highest in rats with afferent blockade and lowest after sympathectomy. Gastric blood flow was partially preserved after sympathectomy, but was not greatly increased, suggesting that some of the effects observed after afferent blockade are unrelated to changes in blood flow.     

Effect of intensified red blood cell aggregability on arterial pressure and mesenteric microcirculation

Intensified aggregability of red blood cells (RBC) was produced in adult white rats by the step-by-step intravascular administration of a high-molecular-weight dextran, with a molecular weight approximating that of blood fibrinogen. As a result, the systemic arterial pressure was elevated by more than one-third of the initial level, whereas the diameter of arterioles in the intestinal mesentery remained practically unchanged. This provided sufficient grounds for the conclusion that the increase in the total peripheral resistance was due to disturbances in blood rheological properties. Despite the elevated arterial pressure, the blood flow velocity in mesenteric arterioles displayed a clear-cut tendency to slow down. Simultaneously, a large number of RBC aggregates appeared in the mesenteric microvessels. In patients with a stable form of arterial hypertension the RBC aggregability index was found to be significantly increased as compared with that of the healthy control group. Following treatment with Ca(2+)- and beta-adrenergic blockers the index decreased significantly in parallel with the lowering of arterial pressure. The obtained results suggest that the intensified RBC aggregation in microvessels causing a disturbance of normal blood flow structure, and hence of blood rheological properties, might be an important factor responsible for the elevation of systemic arterial pressure in humans with arterial hypertension.     

Individual differences in stress-induced dopamine release in the nucleus accumbens are influenced by corticosterone

Stressful experiences, glucocorticoids hormones and dopaminergic neurons seems to interact in determining a higher propensity to develop drug abuse. In this report, we studied the acute interaction between these three factors. For this purpose, we compared stress-induced dopamine release in intact rats and in rats in which stress-induced corticosterone secretion was experimentally blocked. Ten-minute tail-pinch was used as a stressor and dopamine release estimated in the nucleus accumbens by using the microdialysis technique. Individual differences were also taken into account by comparing rats identified as either predisposed (HRs) or resistant (LRs) to develop self-administration of drugs of abuse, on the basis of their locomotor response to novelty. It was found that suppression of stress-induced corticosterone secretion significantly decreased stress-induced dopamine release. However, such an effect greatly differed between HR and LR rats. When corticosterone secretion was intact HR animals had a higher and longer dopamine release in response to stress than LRs. The blockade of stress-induced corticosterone secretion selectively reduced the dopaminergic response of HRs that did not differ from LRs anymore. These findings strength the idea that glucocorticoids could be involved in determining propensity to develop drug self-administration. In particular, these hormones could play a role in determining the higher dopaminergic activity that characterizes drug proned individuals.     

In vivo determination of the stress-strain relation of the human myometrium

Effects of L-glutamine on gastric lesion models in rats and guinea pigs were studied. Shay ulceration in rats was not inhibited by oral L-glutamine. Although stress-induced gastric lesions in intact rats were not inhibited by L-glutamine, a strong antagonism of gastric lesions was induced in pylorus-ligated rats under the same stress by the amino acid. Histamine-induced gastric lesions in intact rats and guinea pigs were also markedly inhibited by L-glutamine. L-Glutamine inhibited the gastric lesions in rats induced by compound 48/80 but not significantly. Reserpine- or serotonin-induced gastric lesions in rats were not affected by L-glutamine. The mechanism of L-glutamine protection was discussed.     

Divergent prolactin and pituitary-adrenal activity in rats selectively bred for different dopamine responsiveness

The present study explores the significance of brain dopamine phenotype for individual variation in the neuroendocrine stress response of the rat. For this purpose, we used two Wistar rat lines previously selected for high or low responsiveness of the dopamine system to apomorphine using the gnawing response as the selection criterion. Systemic administration of the drug evoked in apomorphine-susceptible (apo-sus) rats a vigorous gnawing response, whereas apomorphine-unsusceptible (apo-unsus) rats did not gnaw under these conditions. These two rat lines represent individuals displaying extreme differences in gnawing behavior that otherwise coexist in a normal Wistar population. In this study basal and stress-induced hypothalamic-pituitary-adrenal activity and PRL release were measured in chronically cannulated, freely moving rats that endured a conditioned emotional response. Tyrosine hydroxylase messenger RNA (mRNA), corticosteroid receptor mRNA, and in vivo retention of [3H]corticosterone were measured in rat brain sections using in situ hybridization and in vivo autoradiography. The result show that 1) apo-sus rats had a markedly reduced PRL response to stress compared to apo-unsus animals, whereas basal levels were not significantly different. A12 dopaminergic neurons in the arcuate nucleus expressed significantly higher levels of tyrosine hydroxylase mRNA in apo-sus rats, suggesting that the reduced stress-induced PRL release could be due to an increased inhibitory control by dopaminergic neurons; 2) in apo-sus rats, stress resulted in a sustained elevation of ACTH and free corticosterone levels, whereas the total corticosterone levels were not different between the two rat lines; 3) under basal morning conditions, apo-sus rats had significantly higher plasma ACTH, but, in contrast, lower free corticosterone than apo-unsus rats; total plasma corticosterone levels were not different; 4) the basal evening ACTH level was elevated in apo-sus rats; after removal of the adrenals in the morning, this increased ACTH level in apo-sus rats persisted into the afternoon 6 h postadrenalectomy; and 5) hippocampal mineralocorticoid (MR), but not glucocorticoid (GR), receptor capacity for the ligand comparable between the groups; the MR of apo-sus rats displayed an increased retention of [3H]corticosterone in all hippocampal cell fields measured 24 h adrenalectomy; MR and GR mRNA in hippocampus as well as GR mRNA in the paraventricular nucleus were not significantly different in the two rat lines. In conclusion, the data suggest a common genetic background for individual variation in stress responsiveness and dopamine phenotype. High dopamine reactivity is linked to a reduced PRL and an increased ACTH response after stress. These high dopamine responders display a hyporesponsive adrenal cortex and corticosteroid feedback resistance associated with altered brain corticosteroid receptor properties.     

Chronic social stress produces reductions in available splenic type II corticosteroid receptor binding and plasma corticosteroid binding globulin levels

Adult male and female rats were housed for 2 weeks in a Visible Burrow System resulting in the development of strong dominant-subordinate relationships among the male rats. Neuroendocrine measures indicated that the subordinate rats, and to a lesser extent dominant rats, experienced chronic HPA axis hyperstimulation during the 2 week experience. This paper focuses on the consequences of this chronic social stress on cytosolic type II corticosteroid receptor binding in the spleen. In the first study, rats were adrenalectomized 18 h prior to sacrifice in order to measure total cellular receptor protein levels in each animal. In spite of the severity of the social stress, there was no decrease in splenic type II corticosteroid receptor binding levels in these short-term adrenalectomized animals. In the second study, rats were left adrenal-intact. Corticosteroid receptor levels in these adrenal-intact animals reflect the level of receptors (available receptors) that were unoccupied by endogenous hormone at the time of sacrifice. Both subordinate and dominant rats had fewer available splenic type II receptors than control rats, suggesting that a greater proportion of receptors in subordinate and dominant rats were occupied and activated by endogenous hormone at the time of sacrifice than in control rats. The differences in available receptor levels were not a function of total plasma corticosterone levels at the time of sacrifice (mean corticosterone levels were the same for control and subordinate rats). Instead, the differences in available receptor levels may have been a function of plasma corticosteroid binding globulin (CBG) levels which regulate free corticosterone levels. There was a large reduction in plasma CBG levels of subordinate (-70%) and dominant (-40%) rats relative to control rats, and there was a significant correlation between plasma CBG level and available type II receptors in the spleen. These results suggest that a decrease in CBG levels as a result of chronic social stress led to greater access of free corticosterone hormone to type II receptors in the spleen than is typically present in rats under basal or acute stress conditions. This result illustrates one mechanism by which chronic stress may have a greater impact than acute stress on splenic immune function.     

Quality of poststressor rest influences the ulcerative process.

Gastric ulceration in rats is exacerbated by allowing a so-called recovery period after exposure to an ulcerogenic stressor. One hypothesis, which has support from pharmacological studies, argues that this effect is brought about by a rebound of parasympathetic activation. We tested this parasympathetic rebound hypothesis by presenting animals with a fear-inducing (sympathetic-activating) conditioned stimulus (CS) after 2 hr of water-restraint stress. Contrary to the hypothesis, presentation of such a CS increased severity of ulceration compared with those animals that did not receive the CS after restraint stress and control animals. These ulceration data favor instead a sustained activation hypothesis for ulceration, whereby presentation of the CS effectively prolonged the length of time during which animals were under stress, thus enhancing the degree of ulceration. Measurement of plasma corticosterone however indicated a negative correlation between adrenocortical activity and degree of gastric ulceration, contrary to that expected by a sustained activation hypothesis. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Evaluation of itraconazole-dimethyl sulfoxide ointment for treatment of keratomycosis in nine horses

The effect of a 24-h maternal deprivation at day 3 was studied on the hypothalamus-pituitary-adrenal axis of 18-day-old Brown Norway pups, whose stress-hyporesponsive period is similar to other rat strains. Deprivation resulted at day 18 in reduced basal ACTH levels. The rate of onset and the duration of stress-induced ACTH release were enhanced. CRH mRNA, brain corticosteroid mRNA levels and corticosterone receptor levels were not affected by deprivation, but adrenal weight was increased. It is concluded that maternal deprivation has persistently diminished adrenocortical function in containment of the ACTH response to stress.     

Facilitation of feedback inhibition through blockade of glucocorticoid receptors in the hippocampus

In the present study the effects of intracerebroventricular (i.c.v.) and intrahippocampal administration of corticosteroid antagonists on basal hypothalamic-pituitary-adrenal (HPA) activity around the diurnal peak were compared in male Wistar rats. In two separate experiments the glucocorticoid receptor (GR) antagonist RU 38486 and the mineralocorticoid receptor (MR) antagonist RU 28318 were tested. One hour after GR antagonist injection, significant increases in plasma ACTH and corticosterone levels were observed in the i.c.v. treated rats, when compared to vehicle. In contrast, a significant decrease in ACTH levels, and a slight, but non-significant decrease in corticosterone concentrations were attained one hour after intrahippocampal injection of the GR antagonist. Injection of the MR antagonist, on the other hand, resulted in enhanced ACTH and corticosterone levels irrespective of the site of injection. These findings suggest that negative feedback inhibition at the circadian peak involves hippocampal MRs and extrahippocampal (hypothalamic) GRs. The latter feedback inhibition overrides a positive feedback influence exerted by endogenous corticosteroids through hippocampal GRs.     

Naltrindole administration during the preweanling period and manipulation affect adrenocortical reactivity in young rats

The effect of a daily injection of the delta-selective opioid antagonist naltrindole (1 mg/kg), from birth to postnatal day 19, on basal and post-stress corticosterone levels in 25-day old rats of both sexes was investigated. The effects of manipulation were studied by including two control groups, one group received daily injections of saline and a second one was not manipulated. The stress protocol consisted of a 3 min swimming session in water at 20 degrees C. Corticosterone determinations were performed by radioimmunoassay. Control non-manipulated animals showed a significant increase in corticosterone levels in response to stress. Manipulation decreased basal hormone levels in females and prevented the stress-induced rise in corticosterone in males. Functional blockade of the delta-receptor during the preweanling period by the naltrindole treatment inhibited the corticosterone response to stress in females. The results indicate the existence of sex differences in the effects of manipulation on hypothalamus-pituitary-adrenal axis activity and the involvement of the delta-opioid receptor in the modulation of the adrenocortical response to stress during the postnatal period.     

Multivariate analysis (''forensiometrics'')--a new tool in forensic medicine. Differentiation between sharp force homicide and suicide

Previous studies have shown that corticosteroids affect the changes in membrane potential evoked in CA1 hippocampal neurons by serotonin and the metabolically stable cholinergic analogue carbachol: Low corticosteroid levels induced by steroid administration to adrenalectomized rats or obtained in adrenally intact rats were associated with small transmitter responses. High corticosteroid levels induced by exogenous corticosteroid application or by an acute stress in adrenally intact rats generally evoked large transmitter responses. In the present study we investigated the consequences of this steroid modulation for the main stream of synaptic information in the CA1 hippocampal region, which is carried by amino acids. To this purpose the effect of serotonin and carbachol administration on both extracellularly and intracellularly recorded synaptic responses to Schaffer collateral stimulation were investigated. The data show that the effect of in vivo activation of corticosteroid receptors on the serotonin-induced hyperpolarization of the membrane responses is clearly reflected in the inhibitory effect of serotonin on synaptic responsiveness in the CA1 area. Low circulating levels of corticosterone or selective mineralocorticoid receptor activation reduced the serotonin mediated inhibition of synaptically evoked responses, whereas high corticosterone levels were associated with strong serotonin mediated suppression of synaptic responses. This steroid modulation seems to be specifically aimed at serotonin neurotransmission, as the cholinergic effects on excitatory synaptic transmission were not affected by the hormone treatment.     

Mechanisms of stroke in sickle cell disease: sickle erythrocytes decrease cerebral blood flow in rats after nitric oxide synthase inhibition

The etiology of stroke in sickle cell disease is unclear, but may involve abnormal red blood cell (RBC) adhesion to the vascular endothelium and altered vasomotor tone regulation. Therefore, we examined both the adhesion of sickle (SS)-RBCs to cerebral microvessels and the effect of SS-RBCs on cerebral blood flow when the nitric oxide (NO) pathway was inhibited. The effect of SS-RBCs was studied in the rat cerebral microcirculation using either a cranial window for direct visualization of infused RBCs or laser Doppler flowmetry (LDF) to measure RBC flow. When fluorescently labeled human RBCs were infused into rats, SS-RBCs had increased adhesion to rat cerebral microvessels compared with control AA-RBCs (P = .01). Next, washed SS-RBCs or AA-RBCs were infused into rats prepared with LDF probes after pretreatment (40 mg/kg intravenously) with the NO synthase inhibitor, N-omega-nitro-L-arginine methyl ester (L-NAME), or the control isomer, D-NAME. In 9 rats treated with systemic L-NAME and SS-RBCs, 5 of 9 experienced a significant decrease in LDF and died within 30 minutes after the RBC infusion (P = .0012). In contrast, all control groups completed the experiment with stable LDF and hemodynamics. Four rats received a localized superfusion of L-NAME (1 mmol/L) through the cranial window followed by infusion of SS-RBCs. Total cessation of flow in all observed cerebral microvessels occurred in 3 of 4 rats within 15 minutes after infusion of SS-RBCs. We conclude that the NO pathway is critical in maintaining cerebral blood flow in the presence of SS-RBCs in this rat model. In addition, the enhanced adhesion of SS-RBCs to rat brain microvessels may contribute to cerebral vaso-occlusion either directly, by disrupting blood flow, or indirectly, by disturbing the vascular endothelium.     

NF-κB regulates prenatal stress-induced cognitive impairment in offspring rats.

The study was designed to investigate whether nuclear factor of kappa B (NF-κB) plays regulating role in prenatal stress-induced cognitive impairment and oxidative damage in offspring rats. The authors used a rat model to study plasma levels of corticosterone and oxidative DNA damage (8-OH-dG), protein expression of P65/p50 NF-κB, and cognitive function in female and male offspring rats in middle pregnant stage and later pregnant stage. Prenatal stress affected the capability of learning and memory in the offspring, especially in later stage stressed female offspring. The levels of corticosterone and 8-OH-dG were enhanced in response to stress. Both middle and later stage stresses induced a significant decrease in P65 expression and a significant increase in P50 expression in female offspring. In addition, later stage stress induced a significant decrease in P50 expression in male offspring. These results suggest that NF-κB complex may be acting in a positive regulatory fashion in prenatal stress-induced cognitive impairment and that oxidative DNA damage may exacerbate the activation of NF-κB. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Effects of carbenoxolone Na on acute and chronic gastric ulcer models in experimental animals

Effects of carbenoxolone Na on acute or chronic types of gastric lesions or ulcer models produced in rats, guinea pigs, or dogs were studied. Carbenoxolone Na, given either orally or intraperitoneally, produced a significant inhibition of stress-induced gastric lesions in intact or in pylorus-ligated rats. Acetylsalicylic acid (ASA)-induced or serotonin-induced gastric lesions in rats were also inhibited significantly by pretreatment with the drug. However, carbenoxolone Na did not affect the development of Shay ulceration in rats even though the peptic activity in gastric juices was markedly reduced by the drug. Histamine-induced gastric lesions in guinea pigs were not prevented by pretreatment with carbenoxolone Na. Although carbenoxolone Na, given for 10-20 days, did not promote the healing of stress-induced gastric lesions and acetic acid gastric jlcers in rats, it significantly accelerated the healing of chronic gastric ulcer produced in dogs by 3 weeks' treatment. Carbenoxolone Na prevented the acid back-diffusion caused by ASA without any influence on Na+ efflux in pylorus-ligated rats.     

Specific and long-lasting suppression of rat adjuvant arthritis by low-dose Mycobacterium butyricum

The thyrotropin-releasing hormone (TRH) analog, RX 77368, (p-Glu-His-(3,3'-dimethyl)-Pro-NH2) injected intracisternally (i.c.) at low doses increases gastric mucosal blood flow through vagal cholinergic and calcitonin gene-related peptide dependent pathways. The influence of the mast cell stabilizer, ketotifen, on i.c. injection of RX 77368 (1.5 ng)-induced changes in gastric mucosal blood flow (hydrogen gas-clearance technique), gastric acid secretion and mean arterial pressure was studied in urethane-anesthetized rats. RX 77368 increased gastric blood flow by 131% and systemic arterial pressure by 11 mm Hg and decreased gastric mucosal vascular resistance by 54% whereas acid secretion was not altered within the 30 min period post injection. Ketotifen had no effect on these basal parameters but abolished i.c. RX 77368-induced increased gastric mucosal blood flow and decreased gastric vascular resistance. These data suggest that mast cells may be part of the peripheral mechanisms involved in vagal gastric hyperemia induced by TRH analog injected i.c. at a low dose.     

Potassium channels participate in gastric mucosal protection in rats with partial portal vein ligation

Glybenclamide, an adenosine triphosphate-dependent potassium (K+(ATP)) channel blocker, lowered portal pressure and attenuated the hyperdynamic splanchnic circulation in rats with partial portal vein ligation (PPVL). The purpose of this report was to confirm these observations and to test the hypothesis that glybenclamide could reduce acidified ethanol-induced gastric mucosal injury in rats with PPVL. Gastric mucosal blood flow (hydrogen gas clearance), systemic blood pressure, and portal pressure were monitored in rats with PPVL or sham operation (SO). Intravenous glybenclamide (20 mg/kg) or vehicle was administered, followed by intragastric acidified ethanol (0.15 N HCl and 15% ethanol). The area of gastric mucosal lesions was assessed by image analysis. In contrast to published findings, there was no significant elevation of portal pressure after glybenclamide administration in rats with PPVL. Glybenclamide did not alter the gastric mucosal hyperemia in these rats. Glybenclamide significantly increased mucosal injury. The data are consistent with the hypothesis that K+(ATP) channels play a role in protecting the gastric mucosa in rats with PPVL.