UMLS:C0848237 - FACTA Search

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Query: UMLS:C0848237 (acute stress)
4,619 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The septo-hippocampal cholinergic system in rats undergoes rapid activation after acute stress. This is expressed by rapid increases both in high affinity choline uptake and newly synthesized acetylcholine release. Administration of ACTH or corticosterone at a high dose led 10 min later to changes comparable to those observed after acute stress. Choline uptake and acetylcholine release were also elevated 2 days after adrenalectomy. The effects of adrenalectomy could be attenuated by corticosterone, but not by ACTH treatment. The results demonstrate that (a) after short term stress the septo-hippocampal cholinergic system is activated secondary to activation of the pituitary-adrenocortical axis and (b) major changes in circulating corticosterone can modulate the activity of the hippocampal cholinergic synapse.
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PMID:Stress-induced activation of the hippocampal cholinergic system and the pituitary-adrenocortical axis. 299 57

Ether-laparotomy stress produced a rapid increase in rat hypothalamic CRF concentration, followed by a rapid reduction and subsequent increase. Cold-restraint stress significantly reduced hypothalamic CRF concentration at 15 min after stress onset. Serum ACTH and corticosterone levels were significantly elevated at 15 min after the onset of both stresses. The CRF responses in the medulla oblongata were not similar to the hypothalamic CRF responses. Norepinephrine concentration in the hypothalamus was reduced, whereas dopamine concentration in the hypothalamus and medulla oblongata was significantly increased. Epinephrine concentrations in these tissues did not show any significant change throughout the stress period. The observations lead to the following conclusions: hypothalamic CRF plays a major role in stimulating ACTH secretion under acute stress; the reduction in hypothalamic CRF is due to an excess release in the early phase of acute stress; hypothalamic CRF and medulla oblongata CRF are controlled by different mechanisms; norepinephrine in the hypothalamus may not be involved in stimulating hypothalamic CRF secretion in the early phase of acute stress; and catecholamines are regulated differently in the hypothalamus and medulla oblongata.
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PMID:Brain corticotropin-releasing factor (CRF) and catecholamine responses in acutely stressed rats. 300 28

The possible role of brain histamine in the release of prolactin, ACTH and corticosterone following acute restraint, was pharmacologically evaluated in adult male rats. Fifteen min of restraint caused marked increases in the plasma levels of these hormones. alpha-Fluoromethyl histidine (FH), a histidine decarboxylase inhibitor which depleted hypothalamic histamine, inhibited the enhancement of plasma prolactin levels. In contrast, plasma ACTH levels were not modified. FH treatment decreased plasma corticosterone concentrations in animals submitted to stress or in rest; this suggests a direct action of FH on the adrenal. Intraventricular (IVT) injection of ranitidine (H2 antagonist) blunted the prolactin response to restraint stress whereas its systemic administration had no effect. On the contrary, pyrilamine (H1 antagonist) given systemically decreased slightly, but significantly, the prolactin rise but when injected IVT it was ineffective. Pyrilamine was also unable to affect the ranitidine action. ACTH and corticosterone levels in plasma of restrained rats were not modified by the histamine antagonists. It is concluded that histamine is involved, mainly through central H2 receptors, in the enhancement of plasma prolactin levels produced by an acute stress. The failure of both antihistaminic compounds and a histamine depletor to alter the ACTH stimulation suggest that histamine has no participation in the hypophysio-corticoadrenal response to acute restraint.
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PMID:Restraint stress stimulation of prolactin and ACTH secretion: role of brain histamine. 300 5

Stress-induced activation of secretion of ACTH and beta-endorphin (beta-END) from anterior lobe corticotrophs leads to both short term and longer term perturbation of the system. Immediately following an acute stress session, the rate of translation of the ACTH/beta-END precursor proopiomelanocortin appears accelerated by 50% and the rate of conversion of the precursor into products is doubled. These changes appear to take place at the translational and posttranslational level and reflect a better use of the preformed messenger RNA which compensates for the stress-induced peptide depletion. When the animal is subjected daily to the stress session, longer term mechanisms appear to emerge. The ACTH/beta-END stores in the gland are increased, apparently owing to an increase in transcription, as reflected by a small but significant increase in proopiomelanocortin messenger RNA. The posttranslational processing is no longer accelerated after further stress. This longer term mechanism appears to be pretranslational and to supplant the posttranslational mechanisms observed after acute stress. These two levels of control may represent different points in the regulation of this critical peptide system.
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PMID:Pretranslational and posttranslational mechanisms for regulating beta-endorphin-adrenocorticotropin of the anterior pituitary lobe. 301 43

The present experiment was undertaken to study the metabolic response to stress of single or chronic ACTH-treated male rats. It was found that chronic ACTH-treated rats showed a slight reduction in food intake and a decrease in body weight gain. This treatment increased basal serum triglyceride and insulin levels. In addition, some differences in response to stress was found in chronic ACTH-treated rats. Thus, these latter animals, unlike the other two groups, showed a decrease in circulating triglyceride and insulin levels in response to short-term stress. Moreover, 24 h after onset of stress a more marked fall in liver weight and glucose levels were found in chronic ACTH-treated rats. It suggests that chronic ACTH treatment might alter the metabolic response to prolonged acute stress what could result in lower resistance to severe stresses.
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PMID:Metabolic effects of chronic ACTH administration, interaction with response to stress. 302 May 99

A radioimmunoassay (RIA) capable of determining blood ACTH levels in salmonid fishes was developed and validated. The RIA used an antibody raised against mammalian ACTH, iodinated human ACTH as tracer, and human 1-39 ACTH as standard. Incubation of the standard or unknown with antibody for 3 days before addition of as little high-specific activity tracer as practicable (1500 cpm; equivalent to 5 pg ACTH) produced a very sensitive RIA; the operating range was 5 to 200 pg ACTH/ml. Extracts of both pars distalis and neurointermediate lobe of the pituitary glands from a range of salmonid species diluted parallel to the ACTH standard in the RIA. There was always considerably more ACTH-immunoreactivity (ACTH-IR) in the pars distalis extracts than in the neurointermediate lobe. Generally plasmas also diluted parallel to the ACTH standard, with the exception only of the plasma from sexually mature female salmonids, which diluted very non-parallel to the standard, leading to unrealistically low estimates of the ACTH-IR level. The use of heparin as an anticoagulant during collection of samples caused problems when these plasmas were immunoassayed; instead EDTA was found to be a suitable anticoagulant. When the ACTH-IR was extracted from a pool of plasma obtained from acutely stressed salmon and chromatographed on a column of BioGel P6, followed by subsequent ACTH RIA of the fractions, only a single sharp peak of ACTH-IR was detected, which eluted in the position of authentic 1-39 ACTH. The plasma ACTH-IR level in unstressed fish was low, and near the detection limit of the RIA. An acute stress, produced by crowding and confinement for 30 min, increased ACTH-IR approximately 10-fold, and plasma cortisol levels 50-fold, but the plasma alpha-MSH level was not affected. Dexamethasone-treated fish did not respond to this stressor with any increase in either ACTH or cortisol levels.
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PMID:The development and validation of a radioimmunoassay to measure plasma ACTH levels in salmonid fishes. 302 60

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 a 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.
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PMID:Comparison of the effects of CRF and stress on levels of pituitary cyclic AMP and plasma ACTH in vivo. 303 31

In order to find out whether beta-endorphin (beta-E) is involved in the development of hypertension, we performed two series of experiments. Firstly, spontaneously hypertensive rats (SHR) and their normotensive Wistar Kyoto controls (WKY) were submitted to ether stress. Plasma concentrations of beta-endorphin-like immunoreactivity (beta-EI), adrenocorticotropin (ACTH) and alpha-melanotropin (alpha-MSH) were measured by radioimmunoassay. The basal concentration of beta-EI was similar in WKY and SHR, whereas WKY had higher levels of ACTH and lower levels of alpha-MSH than SHR. In both strains acute stress enhanced the plasma concentration of beta-EI to the same extent and with a similar time-course. The increase of plasma beta-EI coincided with a rise in ACTH but not alpha-MSH. Gel chromatography of beta-EI revealed that plasma extracts contain similar amounts of beta-lipotropin- (beta-LPH) and beta-E-sized immunoreactive components, and that acute stress elevated both forms of beta-EI. Secondly, isolated tail arteries of SHR and WKY were perfused and field stimulated with two pulses at 1 Hz. beta-E depressed stimulation-evoked vasoconstriction with the same potency in both strains. Thus, basal and stress-induced levels of beta-EI did not differ in SHR and WKY. Moreover, in the tail artery of both strains the sensitivity of presynaptic opioid receptors towards beta-E was almost identical. If the beta-E sensitivity of these receptors in other arteries of WKY and SHR is also similar a major role of the circulating peptide in the development of hypertension is rather unlikely.
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PMID:Plasma concentration and vascular effect of beta-endorphin in spontaneously hypertensive and Wistar Kyoto rats. 303 90

The concentration of ACTH, insulin, glucagon, glucose, epinephrine, norepinephrine, thyrotrophic hormone, thyroxine, and triiodothyronine was measured in plasma of the rats flown for 18.5 days on Cosmos-1129. As a result of the flight, the concentration of insulin, thyrotrophic hormone, and triiodothyronine increased and that of thyroxine decreased. It is suggested that the above changes have been induced by an acute stress associated with biosatellite reentry and touchdown.
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PMID:[Hormone content of the blood plasma of rats after a flight on the Kosmos-1129 biosatellite]. 315 31

In a randomised controlled study in 16 orthopaedic patients, the influence of midazolam-fentanyl-N2O/O2 anesthesia (group A) resp. halothane-N2O/O2 anesthesia (group B) on the plasma concentrations of the endocrine parameters ACTH, aldosterone, cortisol, 17-DHEA, insulin, prolactin, T3, T4, TBG (thyroxine bounded globuline) as well as adrenaline, noradrenaline, and dopamine was investigated. Additionally the metabolites glucose, lactate, free glycerin, and acetacetate were measured. Beside prolactin values, only the values for ACTH, aldosterone, cortisol, and 17-DHEA differed with respect to both anesthesia methods. Under halothane-N2O/O2 anesthesia free T4 rose initially also, here represented by T4/TBG-ratio (= FTI). However, the fall of T3 concentration showed no phase - resp. anesthesia-specific changes. Catecholamine levels reached highest values towards the end of operation resp. one hour after extubation in both groups. The insulin secretion, however, was not significantly raised in either group during acute stress phases. As an expression of modified metabolic regulation comparable rises of plasma levels of glucose, lactate, free glycerin, and acetacetate were observed under midazolam-fentanyl-N2O/O2 anesthesia as well as under halothane-N2O/O2. According to presented data, both methods of anesthesia modulated the endocrine metabolic response of the organism to surgical stress, without showing any clinically relevant advantages or disadvantages attributable to either method.
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PMID:[Endocrine reaction pattern: midazolam-fentanyl anesthesia versus inhalation anesthesia]. 329 79

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