A refined blood collection method for quantifying corticosterone

In many rodent laboratories, blood samples are collected from rats using the tail vein nick procedure and analyzed to quantify blood corticosterone levels as an indicator of stress. The standard method of corticosterone quantification often requires the collection of a relatively large volume of blood, followed by the extraction of the blood plasma. An alternative blood sampling method requires the collection of only a drop of blood on paper (the 'drop' method), minimizing handling of the animals, and does not require plasma extraction. The authors aimed to validate the drop method of blood sampling for use in corticosterone quantification. They induced stress in rats by cerebral ischemia, collected blood samples at various intervals using both the drop method and the plasma extraction method and then quantified corticosterone by radioimmunoassay. Corticosterone levels of the ischemic rats were compared with those of sham-operated rats and those of ischemic rats that had been given metyrapone, a glucocorticoid synthesis inhibitor, prior to vessel occlusion. Blood corticosterone levels in the samples obtained from the same animal using the two different methods were highly correlated for all rats. The authors further provide a regression model that can be used to predict plasma corticosterone values from those obtained from the drop blood samples. Quantification of corticosterone from only a small drop of blood has many practical and ethical advantages and should be considered as an alternative to standard methods.     

Attenuated blood corticosterone rhythm in rats with jejunal resection

Circadian rhythmic changes in blood corticosterone concentration were studied in rats after resection of the jejunum or the ileum. The rats with ideal resection showed a normal corticosterone rhythm, with a peak at the beginning of the dark period when they were fed ad libitum, and the phase of the rhythm shifted when the feeding time was restricted to a specific time of day during the light period. The rats with jejunal resection also showed a similar corticosterone rhythm, but its amplitude was lower compared to that of the rats with ideal resection. There were no differences in body weight and the circadian rhythm of blood urea concentration between two groups of rats. We conclude that the jejunum is an important site where the sense of food is received as an entraining signal for the corticosterone rhythm.     

Effect of chronic stress in the blood pressure in the rat: ACTH administration

We have studied the effect of chronic noise stress (St) and ACTH administration (Ac) affecting blood pressure and plasma corticosterone levels in male Wistar rats. Both chronic treatments elicited an increase in plasma corticosterone and blood pressure levels. The blood pressure increased from the first week of treatment period in St and Ac rats and remained high 4 weeks after the end of the stress period. However, blood pressure elevation decrease progressively during the first three weeks of post-treatment in ACTH administrated rats. The rise of blood pressure levels was due to the effect of chronic treatment. This was demonstrated by the absence of differences between the two values of blood pressure measurement with and without daily treatment in both St and Ac groups. Increased corticosterone levels decreased rapidly during the post-treatment period in St and Ac rats. The results suggest a possible relationship between the development of hypertension and the Hypothalamus-Hypophysis-adrenal (HHA) axis stimulation in rats.     

Stress-induced hypertension: effects of adrenalectomy and corticosterone replacement

The effect of adrenalectomy on the hypotensive response induced by social deprivation was studied in a line of Wistar-derived rats. Prior removal of the adrenal gland by surgery was found to prevent the elevation in systolic or diastolic blood pressure observed in sham-operated isolated rats. The social deprivation-induced hypertensive response ran parallel with an increase in the levels of plasma corticosterone. Supplementation therapy with this glucocorticoid in previously adrenalectomized animals restored the levels of plasma corticosterone to normal and made the rats able to respond to social deprivation with an elevation in arterial pressure. Thus, corticosterone plays a "permissive" role in the elevation of blood pressure due to isolation. Apparently, this effect is dependent upon genetic, maturational and environmental factors since it is only evident in some lines of Wistar rats.     

The circadian rhythm of the adrenal glucocorticoid function in female rats selected for the reaction of the estrous cycle to constant illumination

Studies have been made of the circadian rhythms of a glucorticoid hormone, corticosterone, in the adrenals and blood serum in female Wistar rats from two substrains selected for high (ESTH) and low (ESTL) ability to develop permanent oestrus under constant illumination. Significant changes in parameters of the circadian rhythm of the hormone were observed in animals of the 26th generation of selection. Total alleviation of corticosterone rhythm in the blood was on observed in ESTL rats, while in ESTH animals maximum level of the hormone in the blood was shifted to the dark time. Comparison of a high corticosterone content of the adrenals in ESTL rats with a low concentration in the blood plasma indicates the increase in metabolic clearance of the hormone in animals from this strain. It is suggested that the decreased corticosteroid production in the adrenals of ESTH rats facilitates the development of permanent oestrus under constant illumination.     

Effect of Escapable and Inescapable Stress on Levels of Catecholamines in Adrenals and Corticosterone in Blood Plasma in Young and Aged Rats

Effect of escapable and inescapable electrical stress (ES, IS) on the catecholaminergic system was studied in young (3 months) and aged (25 months) male Wistar rats on the day 3 after stress, using radioimmune analysis and high-pressure liquid chromatography. Catecholamine concentration in adrenals and corticosterone level in blood of control aged rats was lower than in young animals. On the third day after the electrical stimulation in cages with current-conducting floor, production of hormones of adrenal cortical and medullar layers rose significantly in aged rats, with a more pronounced increase of noradrenaline after IS, while of blood adrenaline and corticosterone, after ES. In young rats no significant changes in catecholamines were revealed, whereas the blood corticosterone level was increased after IS. Thus, in aged rats, a low basal level of catecholamines and corticosterone and a delayed stress response can be established. In old animals after ES, a long post-action was observed, which was quite comparable with the results obtained after IS in the both age groups.     

Effect of the growth hormone-secreting tumor StW5 on pituitary and adrenal gland function in rats

A growth hormone-secreting tumor (StW5 was implanted into male rats and resulted in a tripling of adrenal weight concomitant with a 30% decrement in pituitary weight. Plasma concentrations of corticosterone in tumor-bearing (TB) rats were significantly elevated at rest or after ACTH injections or the stress of either anesthesia. The rise in plasma concentrations of corticosterone was due mainly to the large increment in adrenal size although a significant increase in adrenal responsiveness to ACTH was demonstrated in vitro. In addition, plasma corticosterone concentrations were higher in TB rats despite both a doubling of the blood volume and a 50% increase in liver capacity to metabolize corticosterone. Pituitary ACTH content was significantly lower in TB rats, but these pituitary glands could still release near-normal quantities of ACTH as shown both by in vitro incubations and adrenal corticosterone output following ether stress.     

CIRCADIAN RHYTHMS IN THE RENIN-ANGIOTENSIN SYSTEM AND ADRENAL STEROIDS MAY CONTRIBUTE TO THE INVERSE BLOOD PRESSURE RHYTHM IN HYPERTENSIVE TGR(mREN-2)27 RATS

The transgenic TGR(mREN-2)27 rat is not only characterized by fulminant hypertension, but also by a disturbance in circadian blood pressure regulation, resulting in inverse circadian blood pressure profiles. The reasons for these alterations are not very well understood at present. We therefore investigated the circadian rhythms in several hormones participating in blood pressure regulation. From TGR and Sprague-Dawley (SPRD) control rats synchronized to 12h light and 12h dark (LD 12:12) blood was collected at different circadian times (07, 11, 15, 19, 23, 03, and 07 again, 5 rats per strain and time). The activities of plasma renin and converting enzyme, as well as plasma concentrations of corticosterone and aldosterone, were determined by radioimmunoassay (RIA). SPRD rats showed significant circadian rhythms in all variables except plasma renin activity, with maxima occurring during the day. TGR rats showed significant circadian rhythmicity in plasma renin activity and corticosterone and daily variation in aldosterone; angiotensin-converting enzyme (ACE) activity did not reach statistical significance. In TGR rats, 24h means in plasma renin activity and aldosterone were approximately sevenfold and fourfold higher, respectively, than in SPRD rats. Peak concentrations in corticosterone around 15h were more than two times higher in TGR rats than in SPRD rats, whereas no differences were observed during the night. It is concluded that, in TGR rats, the overall increase in plasma renin activity and aldosterone may contribute to the elevated blood pressure. The comparatively high levels in corticosterone and plasma renin activity during daytime may be involved in the inverse circadian blood pressure profiles in the transgenic animals. (Chronobiology International, 17(5), 645–658, 2000)     

Circadian rhythms in the renin-angiotensin system and adrenal steroids may contribute to the inverse blood pressure rhythm in hypertensive TGR(mREN-2)27 rats

The transgenic TGR(mREN-2)27 rat is not only characterized by fulminant hypertension, but also by a disturbance in circadian blood pressure regulation, resulting in inverse circadian blood pressure profiles. The reasons for these alterations are not very well understood at present. We therefore investigated the circadian rhythms in several hormones participating in blood pressure regulation. From TGR and Sprague-Dawley (SPRD) control rats synchronized to 12h light and 12h dark (LD 12:12) blood was collected at different circadian times (07, 11, 15, 19, 23, 03, and 07 again, 5 rats per strain and time). The activities of plasma renin and converting enzyme, as well as plasma concentrations of corticosterone and aldosterone, were determined by radioimmunoassay (RIA). SPRD rats showed significant circadian rhythms in all variables except plasma renin activity, with maxima occurring during the day. TGR rats showed significant circadian rhythmicity in plasma renin activity and corticosterone and daily variation in aldosterone; angiotensin-converting enzyme (ACE) activity did not reach statistical significance. In TGR rats, 24h means in plasma renin activity and aldosterone were approximately sevenfold and fourfold higher, respectively, than in SPRD rats. Peak concentrations in corticosterone around 15h were more than two times higher in TGR rats than in SPRD rats, whereas no differences were observed during the night. It is concluded that, in TGR rats, the overall increase in plasma renin activity and aldosterone may contribute to the elevated blood pressure. The comparatively high levels in corticosterone and plasma renin activity during daytime may be involved in the inverse circadian blood pressure profiles in the transgenic animals. (Chronobiology International, 17(5), 645-658, 2000)     

Comparative Studies on the Orcadian Rhythm of Corticosterone Lipid and Cholesterol Levels in Adrenals and Blood of Rats

The time-dependent relationship of corticosterone, lipids and cholesterol over a 48-hr period was studied in the adrenals and blood of rats. In addition an attempt was made to determine whether there was a reciprocal dependence among these compounds and also a correlation between corticosterone and cholesterol in the adrenals and blood.

Corticosterone and cholesterol exhibit a circadian rhythm in the adrenals and blood. The same is true for lipids in the serum. A reciprocal dependence between the compounds in the adrenals and blood could not be demonstrated. Only the time-dependent processes of the corticosterone content in the adrenals and plasma are well correlated with each other. High levels of these steroids in the adrenals are associated with high levels of these steroids in the plasma and vice versa.

An inverse correlation between corticosterone and cholesterol exists in the adrenals and in blood. Maximal levels of corticosterone correspond to minimal levels of cholesterol and vice versa.     

Effect of chronic intracerebroventricular infusion of corticotropin-releasing factor on circadian corticosterone rhythm in the rat

The effects of chronic (14 day) intracerebroventricular infusion of various amounts of ovine corticotropin-releasing factor (oCRF) on the circadian blood corticosterone rhythm in male rats were examined. Control (saline-infused) rats showed distinct blood corticosterone rhythms over 48 h with nadirs at 0900 h and peaks at 2100 h on days 6-7 and 13-14. oCRF at 3 pmol/h did not affect the circadian corticosterone rhythm on these days. When oCRF was infused at a rate of 12 pmol/h, blood corticosterone was increased throughout the 48 h periods. A significant circadian rhythm remained at days 6-7, but continuous infusion for an additional 7 days disrupted the rhythm. Higher doses of oCRF (48 and 240 pmol/h) obliterated the rhythm during both periods; the disruption was characterized by an increase in corticosterone during the lights-on period without a substantial change in the evening maximum. Thus, the blood corticosterone concentration was eventually confined within a narrow range, not exceeding the normal circadian peak, over a wide dose range of centrally administered CRF. Significant effects of oCRF on body and adrenal weight were observed only at the two highest doses used. These findings may provide some insight into the state of the hypothalamic-pituitary-adrenal axis in animals exposed to chronic stress and in patients with depression.     

Comparative Studies on the Orcadian Rhythm of Corticosterone Lipid and Cholesterol Levels in Adrenals and Blood of Rats

The time-dependent relationship of corticosterone, lipids and cholesterol over a 48-hr period was studied in the adrenals and blood of rats. In addition an attempt was made to determine whether there was a reciprocal dependence among these compounds and also a correlation between corticosterone and cholesterol in the adrenals and blood.

Corticosterone and cholesterol exhibit a circadian rhythm in the adrenals and blood. The same is true for lipids in the serum. A reciprocal dependence between the compounds in the adrenals and blood could not be demonstrated. Only the time-dependent processes of the corticosterone content in the adrenals and plasma are well correlated with each other. High levels of these steroids in the adrenals are associated with high levels of these steroids in the plasma and vice versa.

An inverse correlation between corticosterone and cholesterol exists in the adrenals and in blood. Maximal levels of corticosterone correspond to minimal levels of cholesterol and vice versa.     

The behavioral effects of a single adverse exposure in a number of rat generations: the role of maternal glucocorticoids]

The ionizing irradiation of rat fetuses during the last third of intrauterine development increased blood corticosterone level adulthood and decreased the open field locomotion of their adult offsprings of the next first nonirradiated generation. Treatment of the pregnant rats with glucocorticoids also decreased the offspring locomotion. Irradiation of fetuses in the middle of embryogenesis decreased blood corticosterone level in adulthood and shortened the open-field freezing reaction of their adult offsprings of the next first nonirradiated generation. Adrenalectomy of females before mating decreasing the blood corticosterone level had a similar effect on freezing duration of their adult offsprings. Irradiation of the ancestors within the last third of their intrauterine development had no effect on blood corticosterone level of their adult offsprings of the first generation and produced no behavioral alterations in their descendants of the next second nonirradiated generation. Irradiation of the ancestors in the middle of their embryogenesis decreased the stress-induced corticosterone response in their adult offsprings of the first generation and increased rearings and locomotion in their descendants of the next second nonirradiated generation. The data suggest that a single noxious treatment may have behavioral effects throughout two consequent generations of rats. Mother's glucocorticoid hormones may be one of the factors which transmit the effect.     

Involvement of limbic neuronal corticosterone in the regulation of arterial blood pressure

The effect of experimentally induced blood pressure changes on the in vivo release of neuronal corticosterone in limbic and hypothalamic areas was studied in anaesthetized rats. A fall of the arterial blood pressure (ABP) elicited by the intravenous (i.v.) injection of the vasodilatator nitroprusside or the ganglionic blocking agent chlorisondamine decreased the release of corticosterone in the central amygdala (AC) and the ventral hippocampus (VH) whereas an experimentally induced hypertension after i.v. administration of the alpha adrenoreceptoragonist tramazoline led to an enhanced release of the glucocorticoid in the limbic areas mentioned above. Alterations in ABP did not affect the rates of corticosterone release in the medial hypothalamus (MH). The results may indicate a functional role for neuronal limbic corticosterone in central blood pressure regulation.     

Adrenal splanchnic innervation contributes to the diurnal rhythm of plasma corticosterone in rats by modulating adrenal sensitivity to ACTH

Activity of the hypothalamic-pituitary-adrenal axis is characterized by a diurnal rhythm with an AM nadir and PM peak. Splanchnic nerve transection disrupts the diurnal rhythm in plasma corticosterone; however, there is a controversy as to whether the nerve-mediated effect is 1) via inhibition in the AM vs. excitation in the PM, or 2) involves changes in adrenal sensitivity to ACTH. The present studies were designed to address these issues. Adult male rats were anesthetized and underwent bilateral transection of the thoracic splanchnic nerve or sham transection. One week after surgery, rats were killed in the AM or PM with collection of nonstress plasma for measurement of corticosterone and ACTH. Plasma corticosterone was increased in the PM relative to the AM; however, plasma corticosterone in the PM was attenuated by splanchnic nerve transection, without affecting plasma ACTH. This decrease in PM plasma corticosterone after nerve-transection was 1) associated with decreased adrenal responsivity to ACTH, 2) associated with decreased adrenal cAMP content, 3) prevented by adrenal demedullation, and 4) not affected by removal of adrenal capsaicin-sensitive afferent fibers. Repeated serial blood sampling from individual rats confirmed the excitatory effect of splanchnic innervation in the PM. These results support the hypothesis that the adrenal splanchnic innervation modulates the diurnal rhythm in plasma corticosterone by increasing adrenal responsivity to ACTH and augmenting steroidogenesis in the PM and suggest that alterations in adrenal corticosterone secretion obscured by pulsatile secretion are more clearly revealed with repeated serial blood sampling.     

Distribution of cardiac output during pentobarbital versus midazolam/fentanyl/fluanisone anaesthesia in the rat

Differences in effects on central haemodynamics, organ blood flow, and serum corticosterone were studied in 11 rats anaesthetized with midazolam/fentanyl/fluanisone (MFF) and 11 other rats anaesthetized with sodium pentobarbital. Compared with pentobarbital, MFF reduced aortic blood pressure by 25%, increased heart rate by 20%, and increased cardiac output by 80%. Unlike most tissues, MFF produced a fivefold increase in blood flow to skeletal muscle, and decreased adrenal blood flow compared to pentobarbital anaesthesia. Initial serum corticosterone levels were lower in rats given MFF anaesthesia, indicating better stress protection. This study also indicates that MFF anaesthesia is preferable to pentobarbital because tissue perfusion generally was better preserved.     

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.     

The effects of adrenalectomy and corticosterone replacement on maternal behavior in the postpartum rat

It is well known that the hypothalamic-pituitary-adrenal (HPA) axis is activated during stress. Recent work suggests it is also implicated in the regulation of "normal" behaviors. The present studies investigated the effects of adrenalectomy and of varying glucocorticoid concentrations on adult maternal behavior in primiparous rats. In two studies, rats in late pregnancy were adrenalectomized or given sham surgeries and were tested for maternal behavior. In the first study, primiparous rats were given 0, 25, 100, 300, or 500 microg/ml of corticosterone in their drinking water. In the second study, primiparous rats were given either control or corticosterone time-release pellets. Blood samples were taken to ensure that rats demonstrated levels of corticosterone in blood that were relative to doses received. In studies one and two, primiparous adrenalectomized rats showed slightly, but significantly, lower levels of some maternal behaviors, including licking and time in nest, than primiparous sham rats. Primiparous rats given higher doses of corticosterone replacement showed higher levels of these maternal behaviors than primiparous rats given lower doses of corticosterone. In conclusion, adrenalectomy decreases, but does not abolish, maternal behavior. Corticosterone replacement reverses these effects. Corticosterone is not necessary for the initiation or maintenance of maternal behavior but plays a role in the modulation of ongoing maternal behavior.     

Stress responsiveness of the hypophyseal-adrenocortical system in rats with active and passive types of behaviour

No linear differences in the corticosterone basal levels or in its changes following weak stress effects were revealed in rats with active (KHA) or passive (KLA) behavioural strategy. A strong immobilisation stress alone was able to evoke significant linear differences in the hypophyseal-adrenocortical system's responsiveness. The hormonal response to stress was prolonged in the KHA rats as the increased level of corticosterone in the blood of these animals was longer preserved than in the KLA rats. The results suggest both a different sensitivity of the hypophyseal-adrenocortical system and a different velocity of the stress response deactivation in active and in passive animals.     

The effects of desensitization of capsaicin-sensitive neurons on the blood flow in microvessels of the rat gastric serous muscular membrane with normal and insufficient contents of glucocorticoids

The effects of desensitization of capsaicin-sensitive neurons on the blood flow velocity in microvessels of the gastric muscular membrane were investigated before and after indomethacin (35 mg/kg) administration in adrenalectomized rats with or without corticosterone replacement (4 mg/kg sc) and in sham-operated animals. Desensitization of capsaicin-sensitive neurons was performed with neurotoxic dose of capsaicin (20 + 30 + 50 mg/kg sc) two weeks before the experiment. Adrenalectomy was created one week before the experiment. The in vivo microscopy technique for direct visualization of gastric microcirculation and analysis of red blood cell (RBC) velocity was employed. Indomethacin decreased the RBC velocity. Adrenalectomy by itself profoundly decreased the RBC velocity, whereas corticosterone replacement prevented this effect. Desensitization of capsaicin-sensitive neurons did not influence the RBC velocity in sham-adrenalectomized rats; however, it induced further fall of both basal and indomethacin-induced RBC velocity in adrenalectomized rats that was prevented by corticosterone. We conclude that glucocorticoid hormones have a beneficial effect on the blood flow velocity in microvessels of the gastric muscular membrane in rats with desensitization of capsaicin-sensitive neurons.