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)

To investigate the long-term functional change in the 5-HT(2A) receptor after acute stress, we examined the effect of single footshock on head shake behavior induced by the 5-HT(2A) receptor agent (+/-)-2,5-dimethoxy-4-iodoamphetamine hydrochloride (DOI) in rats. Head shakes were evoked in a dose-dependent manner by 0.1-10 mg/kg of DOI, and the maximal response was attenuated by a single footshock given 24 h before. This suggests that there is a decrease in the number of functionally effective 5-HT(2A) receptors. The single footshock-induced reduction in head shakes evoked by DOI was observed immediately and 24 h after footshock, and lasted until 1 and 2 weeks after footshock. Because there were no changes in the [3H]ketanserin binding of the frontal cortex 1 week after footshock, decreases in head shakes were not due to the down-regulation of 5-HT(2A) receptors evoked by footshock.
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PMID:Long-lasting change in 5-HT2A receptor-mediated behavior in rats after a single footshock. 1235 70

The stress-related neuropeptide corticotropin-releasing factor (CRF) and the serotonin system are both critically involved in the pathophysiology of mental disorders, including anxiety and depression. To understand the potential link between them, we investigated the impact of CRF on 5-HT functions in pyramidal neurons of the prefrontal cortex (PFC), a brain region that is crucial for the control of emotion and cognition. One prominent function of serotonin in PFC is to regulate GABAergic inhibitory transmission, as indicated by a 5-HT-induced large, desensitizing (approximately 4 min) enhancement of the amplitude and frequency of spontaneous IPSCs (sIPSCs). In PFC slices exposed to CRF treatment, the regulation of sIPSCs by 5-HT was significantly prolonged (8-10 min), and this effect of CRF was blocked by treatment with the competitive CRF receptor antagonist alpha-helical CRF9-41 and with the CRF-R1-specific antagonist astressin. Inhibiting phospholipase C or protein kinase C (PKC) abolished the prolongation by CRF of the effects of 5-HT on sIPSCs. In PFC slices prepared from animals previously exposed to acute stress (forced swim or elevated platform), the regulation of sIPSCs by 5-HT was significantly prolonged, mimicking the effect of CRF treatment. The stress-induced prolongation of the effects of 5-HT on sIPSCs was diminished by alpha-helical CRF9-41 treatment, mimicked by direct activation of PKC, and reversed by short-term treatment with drugs that have anxiolytic efficacy. These results show that in response to stressful stimuli, CRF alters the serotonergic regulation of GABA transmission through a mechanism that is dependent on PKC. The interaction between CRF and 5-HT may play an important role in psychiatric disorders, in which both are highly implicated.
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PMID:Corticotropin-releasing factor and acute stress prolongs serotonergic regulation of GABA transmission in prefrontal cortical pyramidal neurons. 1516 92

Feather-pecking behavior in laying hens (Callus gallus) may be considered a behavioral pathology, comparable to human psychopathological disorders. Scientific knowledge on the causation of such disorders strongly suggests involvement of the serotonergic (5-hydroxytryptamine; 5-HT) system in feather pecking. Previously, chicks from a high-feather-pecking (HFP) line were found to display lower 5-HT turnover levels than chicks from a low-feather-pecking (LFP) line (in response to acute stress; Y. M. van Hierden et al., 2002). The present study investigated whether low 5-HT neurotransmission modulates feather pecking. First. S-15535, a somatodendritic 5-HT-sub(1A) autoreceptor agonist, was demonstrated to be an excellent tool for reducing 5-HT turnover in the forebrain of LFP and HFP chicks. Second, the most effective dose of S-15535 (4.0 mg/kg body weight) significantly increased severe feather-pecking behavior. The results confirmed the postulation that the performance of feather pecking is triggered by low 5-HT neurotransmission.
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PMID:The control of feather pecking by serotonin. 1517 35

The serotonin-3 (5-HT-3A) receptor has been localized in limbic and brainstem structures that regulate anxiety-related behavior and hypothalamic-pituitary-adrenal (HPA) activity, but its role in regulating anxiety-related behaviors is equivocal, and evidence for its role in regulating HPA activity is limited. Therefore, we used 5-HT-3A receptor knockout (KO) mice to further study these issues. Behavior in the elevated plus maze, open field, light-dark box and after Pavlovian fear conditioning was examined in addition to HPA activity under basal and acute stress conditions. Compared to age-matched adult male wild-type (WT) controls, adult male KO mice exhibited increased distance traveled in the open arms of the elevated plus maze, consistent with decreased measures of anxiety. There were no differences between the two genotypes in exploratory behavior in the open field or light-dark test. KO mice displayed enhanced fear conditioning indexed by fear-induced freezing behavior. KO mice displayed lower adrenocorticotropin (ACTH) responses to restraint or lipopolysaccharide (LPS). In addition, lower vasopressin mRNA in the paraventricular nucleus of the hypothalamus (PVN) and higher corticotropin-releasing hormone (CRH) mRNA in the central amygdala were observed in KO compared to WT mice. Therefore, deletion of the 5-HT-3A receptor revealed an important role for this receptor in regulating HPA responses to acute stress and a potential interaction between the 5-HT-3A receptor and CRH in the amygdala. Together, these data suggest that the 5-HT-3A receptor does not have a unitary role in the regulation of anxiety- and fear-related behaviors but has a potentially substantial role in the regulation of HPA activity.
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PMID:Changes in anxiety-related behaviors and hypothalamic-pituitary-adrenal activity in mice lacking the 5-HT-3A receptor. 1517 47

To characterize individual differences in neuroendocrine and neurochemical correlates of stress coping, two lines of wild house mice were studied. These mice are genetically selected for high and low aggression and show distinctly different behavioral strategies toward environmental stimuli. Long attack latency (LAL), low aggressive mice display a passive coping style, whereas short attack latency (SAL), high aggressive mice show an active coping style. It was hypothesized that this difference in behavioral coping style is associated with differences in stress system reactivity. This was tested by investigating the regulation of the hypothalamus-pituitary-adrenal (HPA) axis and the serotonin (5-HT) system and hippocampal cell proliferation rate in these mice under baseline and stress conditions. Baseline corticosterone output in LAL mice was found to be more sensitive to adrenocorticotropic hormone, but showed less day/night variation than in SAL mice. Furthermore, LAL mice showed lower hippocampal 5-HT(1A) receptor gene expression and function. Basal hippocampal cell proliferation rate was slightly lower in LAL than in SAL mice. Exposure to acute stress (forced swimming for 5 min) resulted in a hyper-reactive HPA response, a reduced increase in brain 5-HT metabolism, and an almost 50% reduction in hippocampal cell proliferation rate in LAL compared with SAL mice. Chronic psychosocial stress (sensory contact stress) induced long-lasting changes in the HPA axis in LAL, but not in SAL mice. In conclusion, these studies show that a genetic trait in behavioral coping style in wild house mice is associated with differences in HPA regulation, 5-HT neurotransmission, and hippocampal cell proliferation rate. The results further indicate that LAL mice have a higher stress responsivity than SAL mice. These results may have implications for a differential susceptibility for stress-related mood disorders.
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PMID:Basal and stress-induced differences in HPA axis, 5-HT responsiveness, and hippocampal cell proliferation in two mouse lines. 1524 Mar 76

The long-term behavioral consequences of acute immobilization (IMMO) in rats and the effects of 5-HT(1A) receptor activation (8-OH-DPAT: 0.3 mg/kg, sc) were studied. Corticosterone levels after IMMO with previous 8-OH-DPAT treatment were also studied. Twenty-four hours after IMMO (3 h), rats performed conditioned (passive avoidance) and unconditioned (escape behavior) anxiety tests in the elevated T maze. Pre-exposure to IMMO induces long-term behavioral changes in contrast with control rats. These behavioral alterations include an increase of anxiogenic responses, such as exploratory behavior and passive avoidance response. This effect was counteracted by 8-OH-DPAT pretreatment and reversed by WAY-100635 when administered before 8-OH-DPAT. Serum corticosterone levels increased during the first hour of stress and after 8-OH-DPAT administration. Our results support the hypothesis that involvement of acute stress is crucial in the anxiety-like behaviors and in the potentiation of fear. The activation of 5-HT(1A) receptors counteracted the long-term effects induced by IMMO.
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PMID:5-HT1A receptor activation before acute stress counteracted the induced long-term behavioral effects. 1524 Mar 87

Wistar-Kyoto (WKY) rats exhibit hyperresponsive neuroendocrine and behavioral responses to stress that exceed normal controls and are especially prone to develop stress-induced depressive disorder. Pharmacological studies indicate altered serotonin (5-HT), norepinephrine (NE) and dopamine (DA) systems functioning in WKY rats, yet no attempt has been made to provide a comprehensive assessment of the neurochemical profile for WKY rats as compared to the outbred progenitor controls, Wistar rats. To this end, male, WKY and Wistar rats (N=6/group) were exposed to an acute forced-swim stress or were left untreated as controls. The prefrontal cortex (PFCtx), striatum, nucleus accumbens (NAS), and amygdala were assayed for levels of NE, DA and 5-HT, as well as major metabolites, by high-pressure liquid chromatography (HPLC) with electrochemical detection. In a separate experiment, designed to assess baseline and stress-induced neuroendocrine activation, male, Wistar and WKY rats (N=6/group) were exposed to an acute forced-swim stress of 15 min or were left untreated as controls. Animals were killed immediately after the test (T=0), 30 min after the test (T=30) or 60 min after the test (T=60), and control animals were killed immediately after weighing. After decapitation, trunk blood was collected and plasma was isolated by centrifugation and analyzed for corticosterone by immunoassay. The neurochemical results demonstrate distinct patterns of baseline and stress-induced monoamine turnover in WKY rats, including alterations to DA and 5-HT turnovers in prefrontal cortex and nucleus accumbens, two critical brain areas implicated in anxiety, depression and drug reward. The neuroendocrine results indicate that WKY rats exhibited a sustained corticosterone response to acute stress, as compared to Wistar controls. Overall, these data are predicted to be useful for understanding the anxiety- and depressive-like behavioral phenotype exhibited by these animals and for increased understanding of the role genetic background in altering neurochemical function.
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PMID:A distinct neurochemical profile in WKY rats at baseline and in response to acute stress: implications for animal models of anxiety and depression. 1534 69

The serotonin (5-HT)-3A receptor has been localized in limbic and brainstem structures that regulate hypothalamic--pituitary--adrenal (HPA) activity. We previously showed that 5-HT-3A receptor knock-out (KO) male mice displayed lower ACTH responses to acute restraint or lipopolysaccharide administration compared to age-matched wild-type (WT) males. In the present study, we found that pituitary-adrenal responses to acute stress were not different in female WT and KO mice. Furthermore, we examined the role of the 5-HT-3A receptor in regulation of chronic stress-induced HPA activity in both male and female WT and KO mice. The results show that ACTH, but not corticosterone, responses to novel restraint are lower in chronically cold stressed females compared to non-stressed control females but no effect of 5-HT-3A receptor deletion was observed. In contrast, male mice showed facilitated responses to novel restraint after chronic cold stress and this facilitation produced sex differences in ACTH responses to novel restraint between male and female chronically stressed KO mice. Together, these results indicate that there are sex differences in HPA responses to novel restraint in chronically stressed mice and these differences are partly related to 5-HT-3A receptor function.
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PMID:Pituitary-adrenal activity in acute and chronically stressed male and female mice lacking the 5-HT-3A receptor. 1601 90

Daily restraint for 3 weeks was shown to atrophy dendrites of hippocampal pyramidal neurons in rats. Brain-derived neurotrophic factor (BDNF), which maintains neuronal survival and morphology, has been shown to decrease in response to acute stress. Plasma glucocorticoid (GC) and serotonergic projections from the raphe nuclei play major roles in reducing BDNF synthesis in the hippocampus. We investigated BDNF mRNA levels there, together with plasma GC levels, GC receptors in the hippocampus/hypothalamus and 5-HT synthesizing enzyme, tryptophan hydroxylase in the raphe nuclei, in animals chronically stressed for 1-3 weeks, using in situ hybridization and immunohistochemistry. In these animals, BDNF mRNA levels were significantly decreased in the hippocampus after 6 h of restraint, but the ability of restraint to reduce BDNF synthesis seemed less robust than that seen in acute stress models. HPA axis response to stress in these animals assessed by plasma GC levels was delayed and sustained, and the GC receptor in the paraventricular hypothalamic nucleus was increased at 1 week. Tryptophan hydroxylase immunoreactivity was increased in the median raphe nucleus at 2-3 weeks. Repetitive stress-induced reduction of BDNF may partly contribute to the neuronal atrophy/death and reduction of hippocampal volume observed both in animals and humans suffering chronic stress and/or depression.
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PMID:Chronic stress, as well as acute stress, reduces BDNF mRNA expression in the rat hippocampus but less robustly. 1602 25

Increased psychophysiological resistance to chronic stress has been related to increased 5-HT release in the dorsal hippocampus. This study investigated the changes in 5-HT release and turnover in the hippocampus evoked by acute and repeated exposure to an inescapable stressor, an elevated open platform, and compared them to the changes evoked in the frontal cortex. Repeated exposure to this stressor results in habituation of the plasma corticosterone response to the test, with full habituation being observed after 20 trials. Repeated exposure to the stressor for 5 or 10 occasions increased 5-HT turnover in the hippocampus. By contrast, 5-HT turnover in frontal cortex was increased by acute exposure to the stressor. Microdialysis studies showed that acute stress increased 5-HT overflow in prefrontal cortex but not dorsal hippocampus whereas repeated daily (10 days) exposure to the stressor increased basal extracellular 5-HT in the dorsal hippocampus, but not the prefrontal cortex. Prior exposure to the stressor on up to 10 occasions enhanced the plasma corticosterone response to a challenge in an elevated plus-maze performed 24h later whereas repeated, but not acute, exposure to the stressor, elicited anxiolytic-like behavioural responses in this test. It is concluded that acute exposure to this form of inescapable stress selectively stimulates the 5-HT projections to the frontal cortex; repeated stress elicits a sustained increase in 5-HT release and turnover in the hippocampus. The data are consistent with the hypothesis that increased 5-HT release in the hippocampus may be implicated in the mechanisms underlying habituation to inescapable stress.
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PMID:Behavioural and neurochemical responses evoked by repeated exposure to an elevated open platform. 1615 Apr 98

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