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)

Chronic stress produces structural changes and neuronal damage especially in the hippocampus. Because neurotrophic factors affect neuron survival, we questioned whether they might be relevant to the heightened vulnerability of hippocampal neurons following stress. To begin investigating this possibility, we examined the effects of immobilization stress (2 hr/d) on the expression of neurotrophic factors in rat brains using in situ hybridization. We found that single or repeated immobilization markedly reduced brain-derived neurotrophic factor (BDNF) mRNA levels in the dentate gyrus and hippocampus. In contrast, NT-3 mRNA levels were increased in the dentate gyrus and hippocampus in response to repeated but not acute stress. Stress did not affect the expression of neurotrophin-4, or tyrosine receptor kinases (trkB or C). Corticosterone negative feedback may have contributed in part to the stress-induced decreases in BDNF mRNA levels, but stress still decreased BDNF in the dentate gyrus in adrenalectomized rats suggesting that additional components of the stress response must also contribute to the observed changes in BDNF. However, corticosterone-mediated increases in NT-3 mRNA expression appeared to be primarily responsible for the effects of stress on NT-3. These findings demonstrate that BDNF and NT-3 are stress-responsive genes and raise the possibility that alterations in the expression of these or other growth factors might be important in producing some of the physiological and pathophysiological effects of stress in the hippocampus.
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PMID:Stress and glucocorticoids affect the expression of brain-derived neurotrophic factor and neurotrophin-3 mRNAs in the hippocampus. 789 Nov 34

The mechanism of antidepressant action, at the cellular level, is not clearly understood. It has been reported that chronic antidepressant treatment leads to an up-regulation of brain-derived neurotrophic factor (BDNF) mRNA levels in the hippocampus, and that physical activity (voluntary running) enhances this effect. We wished to investigate whether BDNF expression brought about by these interventions may overcome deficits caused by acute stress, and might impact behavior in an animal model. In this report, we have tested the hypothesis that the combination of the antidepressant, tranylcypromine, and physical exercise could lead to decreased neurotrophin deficits and enhanced swimming time in animals that have been forced to swim in an inescapable water tank. Rats were either treated with tranylcypromine, engaged in voluntary running, or both for one week. After these treatments, the animals underwent a two-day forced swimming procedure. BDNF mRNA levels were significantly depressed in untreated animals subjected to forced swimming. Animals that either underwent prior activity or received antidepressant showed BDNF mRNA levels restored to baseline. Animals receiving the combined intervention showed an increase in hippocampal BDNF mRNA well above baseline. Swimming time during a five-minute test was significantly enhanced in animals receiving the combined intervention over untreated animals. Swimming time was not significantly enhanced over that of animals receiving antidepressant alone, however. Enhanced swimming time correlated with increased levels of BDNF mRNA in one hippocampal sub-region (CA4-hilus). These results suggest that the combination of exercise and antidepressant treatment may have significant neurochemical, and possibly behavioral, effects. In addition, these results support the possibility that the enhancement of BDNF expression may be an important element in the clinical response to antidepressant treatment. The induction of BDNF expression by activity/pharmacological treatment combinations could represent an important intervention for further study, to potentially improve depression treatment and management.
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PMID:Physical activity-antidepressant treatment combination: impact on brain-derived neurotrophic factor and behavior in an animal model. 1117 88

The neonatal (PND 7) lesion of the ventral hippocampus (VH) with ibotenic acid represents a well-established experimental paradigm that recapitulates many schizophrenia-like phenomena. In order to investigate molecular changes that could contribute to long lasting consequences on brain function, we have investigated the effects of the VH lesion on the expression for the trophic factors FGF-2 and BDNF. We used RNase protection assay to measure their mRNA levels in cortical regions of prepubertal (PND 35) and young adult (PND 56) animals, both under basal condition as well as in response to an acute restraint stress. The expression of BDNF was not altered by the VH lesion in prefrontal (PFC) and frontal cortex (FC) of PND 35 or PND 56 rats. An acute restraint stress at PND 35 produced a significant increase of the neurotrophin expression in PFC of sham as well as lesioned animals. However in young adult animals a significant elevation of BDNF expression was observed only in sham rats. We also found that the VH lesion produced a significant reduction of basal BDNF mRNA levels in the cingulate cortex of young adult, but not prepubertal rats. This effect was not accompanied by changes in the acute modulation of the neurotrophin, which was up-regulated by stress in both experimental groups. Conversely the expression of FGF-2 at PND 35 and PND 56 was not altered by early postnatal VH lesion, and there were no major differences between sham and lesioned animals in response to the acute stress. The changes in trophic factor expression may be relevant for the long-term effects of VH lesion on synaptic plasticity and may determine an increased vulnerability of the brain under challenging situations.
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PMID:Developmental and stress-related changes of neurotrophic factor gene expression in an animal model of schizophrenia. 1132 96

It is well accepted that events that interfere with the normal program of neuronal differentiation and brain maturation may be relevant for the etiology of psychiatric disorders, setting the stage for synaptic disorganization that becomes functional later in life. In order to investigate molecular determinants for these events, we examined the modulation of the neurotrophin brain-derived neurotrophic factor (BDNF) and the glutamate NMDA receptor following 24 h maternal separation (MD) on postnatal day 9. We found that in adulthood the expression of BDNF as well as of NR-2A and NR-2B, two NMDA receptor forming subunits, were significantly reduced in the hippocampus of MD rats whereas, among other structures, a slight reduction of NR-2A and 2B was detected only in prefrontal cortex. These changes were not observed acutely, nor in pre-weaning animals. Furthermore we found that in MD rats the modulation of hippocampal BDNF in response to an acute stress was altered, indicating a persistent functional impairment in its regulation, which may subserve a specific role for coping with challenging situations. We propose that adverse events taking place during brain maturation can modulate the expression of molecular players of cellular plasticity within selected brain regions, thus contributing to permanent alterations in brain function, which might ultimately lead to an increased vulnerability for psychiatric diseases.
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PMID:Early maternal deprivation reduces the expression of BDNF and NMDA receptor subunits in rat hippocampus. 1214 Jul 84

New-born cells continue to proliferate and survive to become mature granule cells in adult rat hippocampus. Although this process, known as neurogenesis, is inhibited by acute stress, it is not clear whether chronic stress affects neurogenesis. To determine whether chronic mild stress (CMS) influences neurogenesis in the adult rat hippocampus, male Sprague-Dawley rats were exposed to CMS and administered bromodeoxyuridine (BrdU) before or after CMS to observe the survival/differentiation or proliferation of new-born cells, respectively. In addition, we measured brain-derived neurotrophic factor (BDNF) mRNA in the granule cell layer (GCL) of the hippocampus, because BDNF is known to play an important role in the survival of new-born cells. CMS significantly decreased the survival of new-born cells in the GCL, but did not influence the proliferation or differentiation of new-born cells. CMS did not affect the proliferation and survival of new-born cells in the hilus. In addition, CMS did not change BDNF mRNA levels in the GCL. These results demonstrate that CMS reduces the survival of new-born cells but not of their proliferation, suggesting that repeated mild stress could influence a part of neurogenesis, but not the whole part of neurogenesis. These results raise the possibility that the survival of new-born cells may be suppressed in the presence of normal BDNF mRNA levels in GCL.
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PMID:Chronic mild stress decreases survival, but not proliferation, of new-born cells in adult rat hippocampus. 1652 May 52

Hippocampal function is essential for the acquisition, consolidation, and retrieval of spatial memory. High circulating levels of glucocorticoids (GCs), the adrenal steroid hormones secreted during stress, have been shown to impair both acquisition and retrieval and can either impair or enhance consolidation, depending on experimental conditions. In contrast, estrogen can enhance spatial memory performance and can block the deleterious effects of GCs on such performance. We therefore constructed a chimeric gene ("ER/GR") containing the hormone-binding domain of the GC receptor and the DNA binding domain of the estrogen receptor; as a result, ER/GR transduces deleterious GC signals into beneficial estrogenic ones. We show here that acute immobilization stress, before acquisition and retrieval phases, increases latencies for male rats in a hidden platform version of the Morris water maze. This impairment is blocked by hippocampal expression of the ER/GR transgene. ER/GR expression also blocks decreases in platform crossings caused by acute stress, either after acquisition or before retrieval. Three days of stress before acquisition produces an estrogen-like enhancement of performance in ER/GR-treated rats. Moreover, ER/GR blocks the suppressive effects of GCs on expression of brain-derived neurotrophic factor (BDNF), a growth factor central to hippocampal-dependent cognition and plasticity, instead producing an estrogenic increase in BDNF expression. Thus, ER/GR expression enhances spatial memory performance and blocks the impairing effects of GCs on such performance.
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PMID:Enhancing cognition after stress with gene therapy. 1709 85

The present study was designed to investigate the effects of a mild acute stress on the in vivo release of dopamine in the prefrontal cortex (PFC) during aging and whether housing animals in an enriched environment changes these effects. Behavioural parameters such as spontaneous motor activity (open-field) and working memory performance in a delayed alternation task (water T-maze) were also studied. Male Wistar rats (3 months of age) were housed during 3, 12, and 21 months (6, 15 and 24 months of age at the end of housing) in enriched or control conditions. After behavioural testing, animals were subdivided in two groups. In one of the groups BDNF protein levels were determined in PFC, hippocampus and amygdala. Rats of the second group were implanted with guide cannula in the PFC to perform microdialysis experiments and to monitor extracellular concentrations of dopamine. The release of dopamine in the PFC produced by handling stress (40 min) was significantly reduced in both enriched and control 24 months animals. However, the increases of dopamine produced by stress were significantly lower in enriched animals when compared to controls. Similarly, the increases of dopamine produced by perfusing K(+) 100 mM into the PFC were also reduced by aging and environmental enrichment. Both spontaneous motor activity and working memory performance were significantly reduced by aging. Moreover, animals housed in an enriched environment did show a lower spontaneous motor activity at all ages studied, though they did not show any change in performing the working memory task, either in basal conditions or after an acute stress. The BDNF protein levels were increased by environmental enrichment in the hippocampus and amygdala, but not in the PFC. These results suggest that both environmental enrichment and aging reduces the activity of the mesocortical dopamine system.
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PMID:Effects of an enriched environment on the release of dopamine in the prefrontal cortex produced by stress and on working memory during aging in the awake rat. 1797 9

Studies show that sex plays a role in stress-related depression, with women experiencing a higher vulnerability to its effect. Two major targets of antidepressants are brain-derived neurotrophic factor (BDNF) and cyclic adenosine monophosphate response element-binding protein (CREB). The aim of this study was to investigate the levels of CREB, phosphorylation of CREB (pCREB), and BDNF in stress-related brain regions of male and female rats after stress and recovery. CREB and pCREB levels were examined in CA1, CA2, CA3, paraventricular nucleus of the thalamus (PVT), amygdala, anterior cingulate area, dorsal part (ACAd), and infralimbic area of prefrontal cortex (PFC), whereas dentate gyrus (DG) and prelimbic area (PL) of PFC were examined for BDNF levels. Our results demonstrate that levels of CREB and pCREB in male CA1, CA2 and CA3, PVT, amygdala, and ACAd were reduced by stress, whereas the same brain regions of female rats exhibited no change. BDNF levels were decreased by chronic stress in female PL but were increased by acute stress in female DG. BDNF levels in male DG and PL were found not to undergo change in response to stress. Abnormalities in morphology occurred after chronic stress in males but not in females. In all cases, the levels of CREB, pCREB, and BDNF in recovery animals were comparable to the levels of these proteins in control animals. These findings demonstrate a sexual dimorphism in the molecular response to stress and suggest that these differences may have important implications for potential therapeutic treatment of depression.
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PMID:Sex differences in the effects of acute and chronic stress and recovery after long-term stress on stress-related brain regions of rats. 1907 26

Increasing evidence suggests that depression is characterised by impaired brain plasticity that might originate from the interaction between genetic and environmental risk factors. Hence, the aim of this study was to investigate changes in neuroplasticity following exposure to stress, an environmental condition highly relevant to psychiatric disorders, in glucocorticoid receptor-deficient mice (GR(+/-)), a genetic model of predisposition to depression. Specifically, we have analysed the neurotrophin brain-derived neurotrophic factor (BDNF) and the immediate-early gene activity-regulated cytoskeletal-associated protein (Arc), two closely related molecules that can contribute to neuroplastic and morphological changes observed in depression. We found a region-specific influence of the GR-genotype on BDNF levels both under basal and stress conditions. Steady-state levels of BDNF mRNA were unchanged in hippocampus while up-regulated in frontal lobe of GR(+/-) mice. Following exposure to an acute stress, increased processing from pro- to mature BDNF was observed in hippocampal synaptosomes of wild-type mice, but not in GR mutants. Furthermore, the stress-dependent modulation of Arc was impaired in the hippocampus of GR(+/-) mice. These results indicate that GR(+/-) mice show overt differences in the stress-induced modulation of neuroplastic proteins, which may contribute to pathologic conditions that may originate following gene x environment interaction.
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PMID:Depression-prone mice with reduced glucocorticoid receptor expression display an altered stress-dependent regulation of brain-derived neurotrophic factor and activity-regulated cytoskeleton-associated protein. 1907 32

Although mood disorders are frequently genetically determined and to some degree gender-dependent, the concept of early life 'programming', implying a relation between perinatal environmental events and adult mood disorders, has recently gained considerable attention. In particular, maternal separation (MS) markedly affects various stress-sensitive brain centers. Therefore, MS is considered as a suitable experimental paradigm to study how early life events affect brain plasticity and, hence, cause psychopathologies like major depression. In adult mammals, the classical hypothalamo-pituitary-adrenal (HPA-) axis and the urocortin 1 (Ucn1)-containing non-preganglionic Edinger-Westphal nucleus (npEW) respond in opposite ways to chronic stressors. This raises the hypothesis that MS, which is known to increase vulnerability for adult mood disorders via the dysregulation of the HPA-axis, will affect npEW dynamics as well. We have tested this hypothesis and, moreover, studied a possible role of brain-derived neurotrophic factor (BDNF) in such npEW plasticity. By triple immunocytochemistry we show that BDNF and Ucn1 coexist in rat npEW-neurons that are c-Fos-positive upon acute stress. Quantitative immunocytochemistry revealed that MS increases the contents of Ucn1 and BDNF in these cells. Furthermore, in males and females, the c-Fos response of npEW-Ucn1 neurons upon restraint stress was blunted in animals with MS history, a phenomenon that was concomitant with dampening of the HPA corticosterone response in females but not in males. Based on these data we suggest that the BDNF-containing npEW-Ucn1 system might be affected by MS in a sex-specific manner. This supports the idea that the npEW would play a role in the appearance of sex differences in the pathogenesis of stress-induced mood disorders.
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PMID:Effects of maternal separation on dynamics of urocortin 1 and brain-derived neurotrophic factor in the rat non-preganglionic Edinger-Westphal nucleus. 1946 Apr 25

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