Effect of Development of Habituation to Restraint Stress on Hypothalamic Noradrenaline Release and Adrenocorticotropin Secretion

Abstract: The effect of repeated stress has been studied on noradrenaline release in the hypothalamic paraventricular nucleus and on adrenocorticotropin levels. Rats were stressed by 20-min immobilization once a day for 5 days. On day 6 they were exposed to the same stress or to a different one (ether vapors for 2 min). Immobilization and ether stress increased noradrenaline release in naive rats (271 ± 43 and 197 ± 9%, respectively) and raised adrenocorticotropin levels, showing activation of the hypothalamus-pituitary axis. Repeated daily restraint did not modify basal noradrenaline or adrenocorticotropin levels. The further immobilization session on day 6 did not change noradrenaline levels at any observation time (20–120 min). The adrenocorticotropin response was still present, although significantly reduced. In repeatedly restrained rats, exposure to ether vapors induced a maximal increase in noradrenaline level similar to that observed in naive rats, although prolonged. In these rats the adrenocorticotropin response did not differ from that in acutely stressed rats. These results suggest that habituation may develop to a stressful stimulus leading to suppression of the hypothalamic noradrenergic response and that this phenomenon is stress specific. Moreover, modifications of noradrenaline release in the paraventricular nucleus are not solely responsible for the adrenocorticotropin response during stress, suggesting that other pathways and/or neurotransmitters are involved too.     

Differential effects of emotional and physical stress on the central and peripheral secretion of neurohypophysial hormones in male rats

The effects of various stressful conditions on the levels of oxytocin (OT) and vasopressin (VP) in plasma and cisternal cerebrospinal fluid (CSF) of male rats were investigated. Three experimental models were used: exposure to a novel environment for 5 min, immobilization for 15 min, and ether inhalation for 10 min resulting in anaesthesia. Novelty and immobilization induced a slight but significant increase in OT levels in the CSF immediately after the stress. The effect of ether was considerably more pronounced. The concentration of VP in the CSF was elevated only by ether stress. In plasma, the level of OT was increased immediately following immobilization and ether stress but not after novelty stress, whereas VP only showed a delayed response 20 min after immobilization. These results indicate a rapid preferential release of OT in the periphery in response to physical and pharmacological stress. In addition, they provide evidence that release of OT into the CSF is triggered by physical, pharmacological as well as emotional stress, while the central release of VP is rather resistant to emotional stress. The data suggest that OT is a stress hormone in the central nervous system.     

Possible involvement of orexin in the stress reaction in rats

We examined whether corticotropin-releasing factor (CRF) was involved in orexin-induced grooming and face-washing behaviors, and whether orexin was involved in the stress reaction. Administration of alpha-helical CRF, CRF antagonist, alone had no behavioral effect, but it blocked the orexin-induced grooming and face-washing behaviors in rats. The level of corticosterone increased in a dose-dependent manner 15 min after icv injection of orexin, and it remained high for at least 60 min. In 2-month-old rats, 1 h of immobilization stress increased orexin mRNA levels, but not the melanin-concentrating hormone (MCH) mRNA, in the lateral hypothalamic area (LHA). In 6-month-old rats, 30 min of cold stress increased the expression of orexin mRNA in the LHA. Unlike in the 2-month-old rats, immobilization stress did not change orexin mRNA expression in 6-month-old rats. These results suggest that CRF is involved in orexin-induced behaviors, and that orexin may play an important role in some stress reactions.     

Increase in cortical and midbrain tryptophan hydroxylase activity by intracerebroventricular administration of corticotropin releasing factor: block by adrenalectomy, by RU 38486 and by bilateral lesions to the central nucleus of the amygdala.

Corticotropin releasing factor (CRF) infused bilaterally into the lateral ventricles of awake, chronically cannulated, male Sprague-Dawley rats produced a dose-dependent increase in the in vitro activity of cortical and midbrain tryptophan hydroxylase after 60 min. The maximal increase in enzyme activity of 60% over that of vehicle-treated controls was reached 45 min after an infusion of 3 micrograms CRF. The increase in enzyme activity after a single dose of CRF resembled that seen after exposure of rats to an acute sound stress: it was reversed by preincubation of the enzyme preparation with alkaline phosphatase and was nonadditive with the increase in activity obtained in the presence of phosphorylating conditions. The response to intracerebroventricularly administered CRF was abolished by bilateral adrenalectomy, but restored by repeated daily systemic administration of the synthetic glucocorticoid, dexamethasone (500 micrograms/day, i.p. for 3 days), to the adrenalectomized rats. Intracerebroventricular administration of the glucocorticoid antagonist, RU 38486 (200 micrograms/day for 4 days), also blocked the acute increase in tryptophan hydroxylase activity in response to CRF. Finally, bilateral lesions to the central nucleus of the amygdala, a region involved in mediating behavioral, endocrine and autonomic responses to stressful stimuli, abolished the increase in enzyme activity in response to intraventricular CRF. The glucocorticoid sensitivity of the response to CRF, as well as the involvement of the central nucleus of the amygdala support the view that CRF may have a role in mediating the enhancement of tryptophan hydroxylase activity by acute sound stress.     

Corticohypophysiotropic and corticotropic activity in adrenalectomized male and female rats after psychic stress

We show modifications in the hypothalamic CRF activity and plasma ACTH concentration in adult rats of both sexes, which were five day sham-operated or adrenalectomized and killed either under basal conditions or after a 3 min period or psychological stress. 1. Under basal conditions, the inhibition of the basal release of ACTH is suppressed in 5 day adrenalectomized rats and a sex difference appears: plasma ACTH concentration is twice as great in females than in males. 2. After a 3 min period of psychological stress, the usual increase in hypothalamic CRF activity observed in sham-operated rats, which seems to be sex-related, does not appear in adrenalectomized male or female rats. However, in adrenalectomized rats, the maximal increase in plasma ACTH concentration occurred more rapidly, with a rate 10 times as great in males and 4 times as great in females, than in sham-operated rats. Differences between the sexes in the maximal increase in plasma ACTH concentration remains 1,6 times as great in females than in males. 3. Our results confirm that corticosteroids exert: (1) a tonic feedback inhibition of the basal release of ACTH, (2) a fast feedback inhibition of the stress induced release of ACTH; the promote an increase in the hypothalamic CRF content. Relative intensity of these two inhibitory mechanisms seems to be sex-related.     

Corticotropin-releasing factor (CRF) antagonist suppresses stress-induced locomotor activity in an amphibian.

Intracerebroventricular (icv) injections of corticotropin-releasing factor (CRF; 25 ng) given to male rough-skinned newts (Taricha granulosa) stimulated locomotor activity tested in a circular arena starting 35 min after the injection. The CRF receptor antagonist, alpha-helical CRF9-41 (ahCRF; 250 or 500 ng), injected icv concurrently with CRF blocked CRF-induced locomotor activity. In contrast, icv injection of ahCRF had no effect on spontaneous locomotor activity. Other studies examined the effect of ahCRF on the elevated locomotor activity that was observed when the animals were stressed (handled or placed in warm water). The CRF antagonist dose dependently attenuated the response to either handling or warm stress tested 2 hr after drug treatment. We also examined the effect of the alpha 2-adrenergic agonist, clonidine, on spontaneous and CRF-induced locomotor activity. Clonidine injected icv dose dependently suppressed spontaneous locomotor activity but not CRF-induced locomotor activity. These studies support the hypothesis that endogenous CRF is involved in mediating stress-induced locomotor activity and indicate that the effects of CRF on locomotor activity are independent of activation of the alpha 2-adrenergic system.     

Comparison of the effects of CRF and stress on levels of pituitary cyclic AMP and plasma ACTH in vivo

We have previously reported that acute stress increases levels of rat pituitary cyclic AMP in vivo. The present study was conducted to test the hypothesis that stress-induced increases in pituitary cyclic AMP in vivo were mediated via CRF. We compared the effects of various stressors with the effects of CRF or epinephrine administration on pituitary cyclic AMP and plasma ACTH responses in vivo. Stressors, epinephrine or CRF increased levels of pituitary cyclic AMP. Pituitary cyclic AMP response to either immobilization or CRF was much greater at light onset than at lights off in rats maintained on at 12 hr light: 12 hr dark lighting regimen. In rats with pituitary stalk transections, footshock did not increase levels of pituitary cyclic AMP, suggesting that some factor of central origin was required for this stress response. Exogenous CRF administration did increase levels of pituitary cyclic AMP in stalk-transected rats, while epinephrine increased levels in sham-operated but not in stalk-transected rats. Antisera to CRF markedly decreased pituitary cyclic AMP response to exogenous CRF administered 6 min following antisera and partially attenuated pituitary cyclic AMP response to forced running. Taken as a whole these data support a major role for CRF in the pituitary cyclic AMP response to stress.     

The role played by hormonal factors in the rapid activation of liver glycogen phosphorylase in traumatized rats

In adult male SPF rats anaesthetized with pentobarbital and subjected to traumatization in revolving Noble-Collip drums for 2 min (= 120 revolutions) maximal increases of liver glycogen phosphorylase activity were observed. In experiments on rats with permanent arterial catheters for blood sampling no posttraumatic increase of plasma norepinephrine and an only slight increase of plasma epinephrine was observed if the animals were traumatized under anaesthesia, in contrast to the considerable increases in the plasma level of both hormones in rats subjected to the injury without anaesthesia. Time and extent of the phosphorylase response of anaesthetized rats after trauma were compared with changes in enzyme activity after i.v. administration of exogenous epinephrine or glucagon. A nearly maximal response after 1 microgram kg-1 epinephrine was present within 1 min, whereas after 0.1 micrograms kg-1 of glucagon there was comparable phosphorylase activation 2 min after administration of the hormone. The plasma renin-angiotensin activity was not increased after injury for 2 min under anaesthesia so that only the increase in plasma vasopressin fitted in with the criteria for possible activators of phosphorylase. An additional role of glucagon also cannot be excluded on the basis of data obtained by the present authors. The increase of phosphorylase activity in this type of stress is ensured by several mechanisms. Moreover, the high effectivity of these hormonal factors in evoking the phosphorylase response even without major activation of the sympathicoadrenal system is underlined.     

Differential monoaminergic, neuroendocrine and behavioural responses after central administration of corticotropin-releasing factor receptor type 1 and type 2 agonists

Corticotropin-releasing factor (CRF) mediates various aspects of the stress response. To differentiate between the roles of CRF(1) and CRF(2) receptor subtypes in monoaminergic neurotransmission, hypothalamic-pituitary-adrenocortical axis activity and behaviour we compared the effects of CRF and urocortin 1 with those of the selective CRF(2) receptor ligands urocortin 2 and urocortin 3. In vivo microdialysis in the rat hippocampus was used to assess free corticosterone, extracellular levels of serotonin (5-HT) and noradrenaline (NA), and their metabolites 5-hydroxyindoleacetic acid (5-HIAA) and 3-methoxy-4-hydroxyphenylglycol (MHPG), respectively. Intracerebroventricular (i.c.v.) injection of CRF and urocortin 1, 2 and 3 (1.0 microg) increased hippocampal levels of 5-HT and 5-HIAA. CRF and urocortin 1 increased NA and MHPG, whereas urocortin 2 and urocortin 3 elevated MHPG, but not NA levels. CRF and the urocortins induced an immediate increase in behavioural activity. CRF and urocortin 1 mainly caused grooming and exploratory behaviour. In contrast, urocortin 2 and urocortin 3 both induced exploratory behaviour, but not grooming, and increased time spent eating food pellets. All urocortins, but not CRF, suppressed food intake 4-6 h after injection. Hippocampal free corticosterone levels were elevated by CRF, urocortin 1 and 3, but not by urocortin 2. The time courses of the CRF- and urocortin 1-induced responses were significantly prolonged as compared to those of the CRF(2) receptor ligands. The stimulatory changes evoked by CRF and urocortin 1 were present up to 4-6 h after injection, whereas the effects of urocortin 2 and urocortin 3 returned to baseline within 2.5 h after injection. Pre-treatment with the selective antagonist antisauvagine-30 (5.0 microg, i.c.v.) confirmed that the effects of urocortin 3 were CRF(2) receptor-mediated. The differential time course of the monoaminergic, neuroendocrine and behavioural effects of CRF and urocortin 1, as compared to urocortin 2 and urocortin 3, and the specific behavioural pattern induced by the CRF(2) receptor ligands, suggest a distinct role for CRF(2) receptors in the stress response.     

Physiological changes in rat hypothalamic CRF: Circadian,stress and steroid suppression

Hypothalamic CRF-like immunoreactivity was measured in the a.m. and p.m., after systemic dexamethasone administration or after either stress in adult male rats. Measurement of plasma corticosterone levels revealed the expected circadian rhythmicity, suppression after dexamethasone administration and increase after ether stress. The hypothalamic content of CRF-like immunoreactivity was significantly decreased in the p.m. and after dexamethasone administration. However, no change in hypothalamic CRF-like immunoreactivity was observed after ether stress. The results are consistent with an increased release in the p.m. and decreased synthesis of hypothalamic CRF after systemic dexamethasone administration. The observation that there is no change in content of hypothalamic CRF-like immunoreactivity after ether stress could be due to the fact that the animals were stressed by handling. The results show that this immunoreactivity present in the hypothalamus is altered by changes in the hypothalamic-pituitaryadrenal axis and thus suggest that this peptide is a physiologically significant CRF in the rat.     

An ether stressor increases REM sleep in rats: possible role of prolactin

Sleep alterations after a 1-min exposure to ether vapor were studied in rats to determine if this stressor increases rapid eye-movement (REM) sleep as does an immobilization stressor. Ether exposure before light onset or dark onset was followed by significant increases in REM sleep starting approximately 3-4 h later and lasting for several hours. Non-REM (NREM) sleep and electroencephalographic slow-wave activity during NREM sleep were not altered. Exposure to ether vapor elicited prolactin (Prl) secretion. REM sleep was not promoted after ether exposure in hypophysectomized rats. If the hypophysectomy was partial and the rats secreted Prl after ether exposure, then increases in REM sleep were observed. Intracerebroventricular administration of an antiserum to Prl decreased spontaneous REM sleep and inhibited ether exposure-induced REM sleep. The results indicate that a brief exposure to ether vapor is followed by increases in REM sleep if the Prl response associated with stress is unimpaired. This suggests that Prl, which is a previously documented REM sleep-promoting hormone, may contribute to the stimulation of REM sleep after ether exposure.     

Inhibition of the ACTH adrenal response to stress by treatment with hydrocortisone, prednisolone and dexamethasone in the rat

16- and 4-week-old intact and adrenalectomized rats have been treated with different doses of the three glucocorticoids hydrocortisone, prednisolone and dexamethasone by gavage. The delayed feedback effect on plasma ACTH and corticosterone response to an ether stress have been assessed. Almost complete suppression of corticosterone response 20 min after an ether stress and an ACTH suppression to 20% of control values 5 min after an ether stress were observed with 25 micrograms of dexamethasone, 10 mg of prednisolone and 20 mg of hydrocortisone. Although the percent inhibition of corticosterone and ACTH response to stress was comparable, a striking dissociation of the ACTH and corticosterone release was observed in terms of absolute concentrations. A mean ACTH concentration of 462 ng/l after 25 micrograms of dexamethasone was measured together with a barely measurable corticosterone concentration of 3 micrograms%. Similarly, after 10 mg of prednisolone, the mean ACTH concentration was 404 ng/l, whilst the mean corticosterone concentration was 3 micrograms%. This dissociation demonstrates that the corticosterone concentration on its own does not necessarily reflect the ACTH release. At 4 weeks of age, the ACTH response to stress is more difficult to suppress than in adult animals. This is more obvious after adrenalectomy, where the excessive ACTH secretion was less inhibited by all glucocorticoids used. The time between the last steroid gavage and stress must be considered. In 4-week-old animals the ACTH response 16 h after 12.5 micrograms of dexamethasone was inhibited by 22%, whereas 4 h after the same dexamethasone dose the inhibition was 85%.(ABSTRACT TRUNCATED AT 250 WORDS)     

Prolactin response to stress in neonatally estrogenized male rats

Male Wistar rats were injected either 500 micrograms of estradiol benzoate or olive oil on their first day of life. Blood samples were obtained from the adult by decapitation, by decapitation after 15 min of restraint, by decapitation 10 min after a 5 min period of ether exposure or by jugular venipuncture after 60 s of ether exposure. Prolactin (PRL) plasma levels were measured by RIA. The PRL levels in samples obtained by decapitation were similar to control and estrogenized groups. A similar response to restraint was also found in both groups. Sixty s of exposure to ether stress stimulates PRL secretion only in the estrogenized males, this effect being blocked by treatment with Normifensine (5 mg/kg two hours prior to blood sampling). These results suggested that estrogenized male rats show greater sensitivity to acute ether stress than the controls, and that changes in the dopaminergic system could be involved in this response.     

Cytoplasmic superoxide dismutase activity is a sensitive indicator of the antioxidant status of the rat liver and brain

Several parameters of the cytoplasmic enzymatic antioxidant system of the liver and brain of the rat have been investigated under conditions of immobilization stress and of an antioxidant preparation in the diet of animals. These included superoxide dismutase (SOD) and glutathione reductase (GR) activities and nonspecific NADPH oxidation. Only changes in the activity of SOD both in the liver and brain were revealed. In the liver of animals that receive no preparation, a decrease in the activity of SOD after 30-min immobilization and its restoration after a 360-min immobilization were observed. In the brain, the activity of SOD decreased only in preconditioned animals after 30 and 360 min of exposure to stress. In addition, the activity of SOD in the brain of preconditioned animals, both stressed and unstressed, was lower than in the corresponding groups of control animals. It is probable that, under the conditions of immobilization stress, the level of reactive oxygen species (ROS) and as a consequence the activity of SOD decrease. The intake of an antioxidant preparation under these conditions seems to be not correct.     

Transneuronal induction of adrenal ornithine decarboxylase through descending spinal pathways

Induction of adrenal ornithine decarboxylase (ODC) was studied in rats that had previously undergone hemisection of the spinal cord at the C5–C6 level. Control rats were sham-operated. In the latter, the stress of immobilization produced symmetrical increases in ODC of the adrenal medulla. In rats with cord hemisection a quantitatively similar increase was observed only on the intact side, the response of adrenomedullary ODC of the lesioned side being significantly smaller. Induction of adrenomedullary ODC in hemisected rats by administration of apomorphine or of 2-deoxyglucose resulted in the same pattern of response as after immobilization. Induction of adrenocortical ODC by immobilization or apomorphine was not affected by cord hemisection. The results demonstrate the existence of both ipsilateral and contralateral components of descending spinal pathways for the induction of adrenomedullary ODC, the ipsilateral fibres exerting a preponderant effect.     

Central nervous system mediation of pituitary adrenal rhythmicity.

Evidence favoring the view that there is a dissociation between the two aspects of pituitary adrenal operation, the stress and the rhythm modes, is as follows 1) it is possible to abolish rhythmic function by anterior hypothalamic lesions without altering the responses to stress; 2) during maturation of the rat CNS, the stress response appears prior to weaning while pituitary-adrenal rhythm appears after weaning; 3) appropriate neuropharmacologic treatment can block circadian rhythm without altering the stress response; 4) responsiveness to ether or immobilization may be independent of the diurnal rhythm; 5) the stress response to a very strong stimulus, such as immobilization, habituates while the circadian rhythm does not. On the other hand there is some evidence in favor of interdependence between the two modes of operation: 1) input channels for stress and rhythm may overlap since strong synchronizers of rhythm, such as food and water restriction and light can become stress stimuli; 2) steroid feedback can alter the timing of the circadian rhythm; 3) circadian variation has been observed in the responses to certain stimuli; 4) neurotransmitters which are prominently implicated in the circadian rhythm also appear involved in the stress response.     

束缚应激对大鼠下丘脑室旁核、视上核一氧化氮合酶活性的影响

目前已知下丘脑是应激反应的关键性调节中枢,下丘脑内一氧化氮是否参与应激反应尚未见报道。本文运用ＮＡＤＰＨ－ｄ酶组化技术和计算机图象分析方法,对束缚应激大鼠下丘脑室旁核（ＰＶＮ）和视上核（ＳＯＮ）一氧化氮合酶（ＮＯＳ）阳性神经元的相对切面面积和平均灰度进行了分析。结果显示,大鼠在急性束缚应激４小时后,其下丘脑ＰＶＮ和ＳＯＮ内的ＮＯＳ阳性神经元的平均灰度值与正常大鼠比较均明显降低（Ｐ＜０．００１）;ＳＯＮ的ＮＯＳ阳性神经元的相对切面面积明显大于正常大鼠（Ｐ＜０．００１）,但ＰＶＮ的ＮＯＳ阳性神经元的相对切面面积未见明显改变（Ｐ＞０．０５）。以上结果说明束缚应激使大鼠下丘脑ＰＶＮ和ＳＯＮ的ＮＯＳ活性增强     

Differential effects of stress and amphetamine administration on Fos-like protein expression in corticotropin releasing factor-neurons of the rat brain

Corticotropin releasing factor (CRF) appears to be critical for the control of important aspects of the behavioral and physiological response to stressors and drugs of abuse. However, the extent to which the different brain CRF neuronal populations are similarly activated after stress and drug administration is not known. We then studied, using double immunohistochemistry for CRF and Fos protein, stress and amphetamine-induced activation of CRF neurons in cortex, central amygdala (CeA), medial parvocellular dorsal, and submagnocellular parvocellular regions of the paraventricular nucleus of the hypothalamus (PVNmpd and PVNsm, respectively) and Barrington nucleus (Bar). Neither exposure to a novel environment (hole-board, HB) nor immobilization (IMO) increased Fos-like immunoreactivity (FLI) in the CeA, but they did to the same extent in cortical regions. In other regions only IMO increased FLI. HB and IMO both failed to activate CRF+ neurons in cortical areas, but after IMO, some neurons expressing FLI in the PVNsm and most of them in the PVNmpd and Bar were CRF+. Amphetamine administration increased FLI in cortical areas and CeA (with some CRF+ neurons expressing FLI), whereas the number of CRF+ neurons increased only in the PVNsm, in contrast to the effects of IMO. The present results indicate that stress and amphetamine elicited a distinct pattern of brain Fos-like protein expression and differentially activated some of the brain CRF neuronal populations, despite similar levels of overall FLI in the case of IMO and amphetamine.