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)

Social stress is a common occurrence in our society that can negatively impact health. Therefore, we wanted to study the effects of a mild stressor designed to model social stress on seizure susceptibility and GABAA receptors in male and female rats. The mild chronic stress of individual housing consistently decreased bicuculline (but not pentylenetetrazol, PTZ) seizure thresholds by 10-15% in both sexes. Housing conditions did not alter the anticonvulsant activity of diazepam or ethanol, although the anticonvulsant effect of ethanol was significantly greater against PTZ-induced seizures. Experiments testing the addition of an acute restraint stress unmasked sex differences in seizure induction. The acute stress also selectively decreased the potency of GABA to modulate GABAA receptor-mediated chloride uptake in group-housed females. There were additional sex differences by housing condition for GABAA receptor-gated chloride uptake but no differences in [3H]flunitrazepam binding. We also found significant effects of sex and housing on ethanol-induced increases in corticosterone (CORT) levels. In summary, there were complex and sex-selective effects of mild chronic stress on seizure induction and GABAA receptors. Gaining a better understanding of mechanisms underlying interactions between sex and stress has important implications for addressing health concerns about stress in men and women.
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PMID:Sex differences in effects of mild chronic stress on seizure risk and GABAA receptors in rats. 1525 Dec 58

The analysis of stress-induced changes in the brain neurosteroid levels by liquid chromatography (LC)-electron capture atmospheric pressure chemical ionization-mass spectrometry (ECAPCI-MS) is described. In the present method, neurosteroids were derivatized with a highly electron-affinitive reagent, 2-nitro-4-trifluoromethylphenylhydrazine (NFPH), to convert them to the corresponding hydrazones. The derivatized steroids showed over a 20-fold higher sensitivity in ECAPCI-MS than intact steroids measured by positive atmospheric pressure chemical ionization (APCI)-MS. Application of this method to the analysis of rat brain samples confirmed the significant increase in the levels of pregnenolone (PREG), progesterone (PROG), 5alpha-dihydroprogesterone (DHPROG), allopregnanolone (3alpha-hydroxy-5alpha-pregn-20-one; AP), and epiallopregnanolone (3beta-hydroxy-5alpha-pregn-20-one; EpiAP) in the fixated rats. The din stress, which we examined as a new short-term mental stress model, also elevated the brain neurosteroid levels. It is known that various types of stress lower the gamma-aminobutyric acid type A (GABA(A)) receptor function and induce the neuronal overexcitation. The increase in the brain level of AP, a potent positive modulator of GABA(A) receptors, may be the defensive response against acute stress. The increase in the brain concentration of its precursors, PREG, PROG, and DHPROG, may be associated with the acceleration of the AP synthesis. Thus, the present studies suggest that changes in the brain levels of neurosteroids may play an important role in the homeostatic mechanisms that counteract the inhibitory effect of stress on the GABA(A) receptor function.
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PMID:Studies on neurosteroids XVII. Analysis of stress-induced changes in neurosteroid levels in rat brains using liquid chromatography-electron capture atmospheric pressure chemical ionization-mass spectrometry. 1561 Aug 91

The involvement of brain creatine in the adaptation to acute stress responses was investigated in chicks. In experiment 1, brain creatine content of chicks exposed to social separation stress was significantly increased compared with control chicks. The effects of i.c.v. injection of creatine (2 mug) on vocalizations, spontaneous activity and plasma corticosterone concentration in chicks under social separation stress were investigated in experiment 2. All measurements were attenuated by the i.c.v. injection of creatine compared with the controls under separation stress. Creatine also significantly decreased the active posture, but increased the motionless eye-opened posture, compared with the control. To clarify the relationship between creatine function and GABA receptors, the i.c.v. co-injection of creatine with picrotoxin, a GABA-A receptor antagonist, or CGP54626, a GABA-B receptor antagonist, was investigated in experiments 3 and 4. The effects of creatine on vocalizations and spontaneous activity were attenuated by co-injection of picrotoxin. In this case, active postures decreased by creatine were recovered by co-injection with picrotoxin. However, these effects were not obtained with CGP54626. The results suggest that central creatine functions within the CNS to attenuate the acute stress response by acting through GABA-A receptors in chicks.
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PMID:Brain creatine functions to attenuate acute stress responses through GABAnergic system in chicks. 1578 Apr 67

1. The long-term level of arterial pressure is dependent on the relationship between arterial pressure and the urinary output of salt and water, which, in turn, is affected by a number of factors, including renal sympathetic nerve activity (RSNA). In the present brief review, we consider the mechanisms within the brain that can influence RSNA, focusing particularly on hypothalamic mechanisms. 2. The paraventricular nucleus (PVN) in the hypothalamus has major direct and indirect connections with the sympathetic outflow and there is now considerable evidence that tonic activation of the PVN sympathetic pathway contributes to the sustained increased level of RSNA that occurs in conditions such as heart failure and neurogenic hypertension. The tonic activity of PVN sympathetic neurons, in turn, depends upon the balance of excitatory and inhibitory inputs. A number of neurotransmitters and neuromodulators are involved in these tonic excitatory and inhibitory effects, including glutamate, GABA, angiotensin II and nitric oxide. 3. The dorsomedial hypothalamic nucleus (DMH) also exerts a powerful influence over sympathetic activity, including RSNA, via synapses with sympathetic nuclei in the medulla and, possibly, also other brainstem regions. The DMH sympathetic pathway is an important component of the phasic sympathoexcitatory responses associated with acute stress, but there is no evidence that it is an important component of the central pathways that produce long-term changes in arterial pressure. Nevertheless, it is possible that repeated episodic activation of this pathway could lead to vascular hypertrophy and, thus, sustained changes in vascular resistance and arterial pressure. 4. Recent studies have reactivated the old debate concerning the possible role of the baroreceptor reflex in the long-term regulation of sympathetic activity. Therefore, central resetting of the baroreceptor-sympathetic reflex may be an important component of the mechanisms causing sustained changes in RSNA. However, little is known about the cellular mechanisms that could cause such resetting.
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PMID:Long-term regulation of arterial blood pressure by hypothalamic nuclei: some critical questions. 1585 52

Insomnia is a common sleep complaint even in young adults and has important daytime consequences. Several subjective and objective tools are recommended to assess the magnitude of the problem and to try to find a cause. Chronic insomnia is often caused by precipitating factors, such as acute stress, work conditions, illness, and travel, and perpetuating factors, such as poor sleep hygiene, anxiety, and medications. Insomnia may have implications in athletic performance resulting from physical and cognitive effects. Several pharmacologic and nonpharmacologic approaches are employed in the management of insomnia that have proven effective for short-term treatment. The pharmacologic approaches include the use of zolpidem and specific GABA agonists, benzodiazepines for specific indications, antidepressants, and melatonin. The nonpharmacologic approaches include stimulus control, sleep restriction, relaxation strategies, and cognitive behavioral therapy.
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PMID:Insomnia and sleep disruption: relevance for athletic performance. 1589 23

Stress increases plasma and brain concentrations of corticosteroids and neuroactive steroids. Cortisol is the most important stress hormone in the hypothalamic pituitary adrenocortical system. However, significant amounts of the mineralocorticoid deoxycorticosterone are also released during stress. Deoxycorticosterone undergoes biotransformation to allotetrahydrodeoxycorticosterone, a neuroactive steroid with anxiolytic and anticonvulsant properties. Our studies indicate that the anticonvulsant activity of deoxycorticosterone is mediated by its conversion to allotetrahydrodeoxycorticosterone, which is a potent positive allosteric modulator of GABA(A) receptors. Although the role of allotetrahydrodeoxycorticosterone within the brain is undefined, recent studies indicate that stress induces increases in allotetrahydrodeoxycorticosterone to levels that can activate GABA(A) receptors. These results might have significant implications for human stress-sensitive conditions such as epilepsy, panic disorder, post-traumatic stress disorder, and major depression. In epilepsy, a role for adrenal allotetrahydrodeoxycorticosterone in seizure susceptibility has been suggested. Recent preclinical studies indicate a role of neuroactive steroids in ethanol actions. Although these studies provide a better understanding of the role of allotetrahydrodeoxycorticosterone and related neuroactive steroids in acute stress, further studies are clearly warranted to ascertain the specific role of neuroactive steroids in the pathophysiology of chronic stress and related brain conditions.
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PMID:Physiological role of adrenal deoxycorticosterone-derived neuroactive steroids in stress-sensitive conditions. 1632 48

Animal models have shown progressive development and have undoubtedly proven their supportive value in OCD research. Thus, various animal models have confirmed the importance of the 5-HT [72-74] and dopamine systems [104,111] in the neurobiology and treatment of OCD. Given the neurochemical, emotional, and cognitive complexity of the disorder, how-ever, animal models are being used to investigate more and more complicated neurochemical and behavioral theories purported to underlie OCD. The lever-press model, for example, has implicated deficient response feed-back in a neural system that regulates operant behavior [74]. Studies on stereotypic movement disorder [89] have opened a new avenue of investigation into the neurobiology of stereotypy that may be applicable to more complex syndromes such as OCD. Models that have focused on specific neuropsychologic aspects of OCD such as reward [74], displacement behavior[63,101], perseveration and indecisiveness [73,102], and spontaneous stereotypy [90,94] are important in their attempt to unify the diverse behavioral manifestations of this disorder. It is clear that for a deeper, more holistic understanding of OCD, multiple animal models will be needed to allow investigation of the various aspects of the disorder and to provide convergent validation of the research findings. The heterogeneous nature of OCD, the various subtypes that exist within the disorder, and the range of obsessive-compulsive spectrum disorders suggest that particular questions regarding OCD may be addressed best by us-ing a particular ethologic model, whereas other questions might require a pharmacologic model or a combination of both for meaningful results[62,115]. Genetic models will be extremely useful for studying the genetics of pathologic behavior and for relating these findings to neuroanatomic and neurochemical changes in the model (eg, DICT-7 mice as a model for Tourette's syndrome and OCD). Neither ethologic nor pharmacologic models, however, can assess whether the "compulsive" behavior is a response to an "obsessive" anxiety or fear. Perhaps the symptoms seen in patients who have OCD, which may be exacerbated by everyday stress, are analogous to displacement behaviors in animals and also reflect some form of anxiety or stress [98]. In this regard, the bank vole model [116]has provided evidence that previously developed stereotypies increase markedly after acute stress and argues that healthy individuals "habituate" to everyday stress, whereas patients who have OCD do not. Interindividual variation in behavioral response and attempts to replicate studies in different laboratories often is the nemesis of the behavioral scientist. Small within- and between-subject variability is usually desirable, how-ever, because there are cases in which the study of the variability of the model could lead to a better understanding of the disorder. Variability can-not always be considered an error; it is possible that previously disregarded neuronal systems may have a place in the observed variation and, indeed, in the pathophysiology of OCD. In this regard, SRIs are not always effective for OCD [6,29,30] such that a lack of effect in a model may reflect an un-known neurobiological basis for compulsive behavior in a sub-group of SRI refractory patients. Similarly, separating the afflicted (ie, working with animals that show greater behavioral change in a model and/or after drug treatment) would have distinct benefits. To increase successful implementation of an ethologic animal model, especially when reinforcement models or signal attenuation models are used,the laboratory must be equipped with the essential behavioral testing apparatus as well as the operant chambers/rooms in which to conduct the train-ing and data collection. Quantification of certain stereotypy behaviors also requires experienced or trained observers. An illustration of the difficulty in measuring behavioral changes is that in the rewarded alternation model,a good response to behavioral treatment (alternation training) may lead to a floor effect [73] which, after successful drug treatment of the animal,produces no residual persistence (ie, measurable behavioral change) on which a drug treatment can be tested. Clearly, the choice of ethologic, pharmacologic, or genetic models should be considered carefully. A well-validated model may quell many of the limitations and considerations described previously. Noninvasive neuroimaging(eg, the use of small-animal single-photon emission CT) to explore the neuroanatomic basis of OCD offers an exciting future challenge, especially if combined with pharmacologic or ethologic models, and could confirm or ex-tend knowledge of the neuroanatomy of OCD. Although studies to investigate further the interactive role of 5-HT, dopamine, GABA, and glutamate are still needed, the role of neuroactive peptides such as cholecystokinin, corticotrophin-releasing factor, neuropeptide Y, tachykinins (ie, substance P),and natriuretic peptides in OCD should also be considered. Genetically engineered animal models will become increasingly valuable in combination with new technologies such as gene-chip microarrays, RNA interference, and advanced proteomics that will help further the understanding of OCD. Animal models of OCD are poised to play a vital role in extending the knowledge of the disorder now and in the future.
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PMID:Animal models of obsessive-compulsive disorder: rationale to understanding psychobiology and pharmacology. 1665 Jul 14

Development of the hypothalamo-pituitary-adrenocortical (HPA) axis is marked by a diminution in stress responsiveness early in the postnatal period (days 4-14 in the rat). This 'stress hyporesponsive period' (SHRP) is thought to be at least in part centrally mediated. To investigate central mechanisms underlying the SHRP, this study assessed expression of glutamic acid decarboxylase (GAD) 67 in key stress-regulatory regions in the forebrain following acute stress with or without prior maternal deprivation. This isoform of GAD is known to be induced by stress in the adult and is believed to be a major contributor to production of the inhibitory neurotransmitter GABA under stimulated conditions. Expression of GAD67 mRNA was increased in the hippocampus, central amygdala and dorsomedial hypothalamus in pups tested early in the SHRP (day 6) or after its conclusion (day 18). In contrast, restraint caused a down-regulation of GAD67 mRNA in these structures when tested later in the SHRP (day 12). GAD67 mRNA expression was not affected by prior maternal deprivation in these regions. Reduced GABA production in the hippocampus (interneurons) is consistent with enhanced HPA axis inhibition, whereas reduced amygdalar expression predicts impaired stress excitation. Expression of GAD67 mRNA in the bed nucleus of the stria terminalis (BST) was minimally affected by acute restraint or maternal deprivation during the SHRP. However, older animals showed down-regulation of basal expression following maternal deprivation and substantial GAD67 mRNA up-regulation in both deprived and non-deprived groups following acute restraint. In contrast, non-responsiveness of the BST during the SHRP suggests either that BST GABA circuits are not actively engaged by stressors during this period or that circuits regulating BST GAD67 production are not yet in place. Overall, the data implicate forebrain GABA circuits in inhibition of HPA axis activity during the SHRP.
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PMID:GABAergic circuits and the stress hyporesponsive period in the rat: ontogeny of glutamic acid decarboxylase (GAD) 67 mRNA expression in limbic-hypothalamic stress pathways. 1727 16

Recently, we demonstrated cyclic alterations in GABA(A) receptor (GABA(A)R) subunit composition over the ovarian cycle correlated with fluctuations in progesterone levels. However, it remains unclear whether this physiological regulation of GABA(A)Rs is directly mediated by hormones. Here, we show that both ovarian and stress hormones are capable of reorganizing GABA(A)Rs by actions through neurosteroid metabolites. The cyclic alterations in GABA(A)Rs demonstrated in female mice can be mimicked with exogenous progesterone treatment in males or in ovariectomized females. Progesterone (5 mg/kg, twice daily) upregulates the expression of GABA(A)R delta subunits and enhances the tonic inhibition mediated by these receptors in dentate gyrus granule cells (DGGCs). These changes in males as well as ovarian cycle-induced changes in females can be blocked by finasteride, an antagonist of neurosteroid synthesis from progesterone. The altered GABA(A)R expression is unaffected by the progesterone receptor antagonist RU486 [mifepristone (11beta-[p-(dimethylamino)phenyl]-17beta-hydroxy-17-(1-propynyl)estra-4,9-dien-3-one)], suggesting that neurosteroid synthesis and not progesterone receptor activation underlies the hormone-mediated effects on GABA(A)R expression. Neurosteroids can alter GABA(A)R expression on a rapid timescale, because GABA(A)R upregulation can be induced in brain slices maintained in vitro after a short (30 min) treatment with the neurosteroid 3alpha,5alpha-tetrahydrodeoxycorticosterone (THDOC) (100 nM). Consistent with these rapid alterations, acute stress, a condition known to quickly raise THDOC levels, within 30 min induces upregulation of GABA(A)R delta subunit expression and increase tonic inhibition in DGGCs. These results reveal that several physiological conditions characterized by elevations in neurosteroid levels induce a reorganization of GABA(A)Rs through the action of neurosteroids.
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PMID:Neurosteroid synthesis-mediated regulation of GABA(A) receptors: relevance to the ovarian cycle and stress. 1732 12

Previous investigations demonstrated that repeated stresses before an ethanol exposure sensitize ethanol withdrawal-induced anxiety-like behavior ('anxiety'). In addition to activating the hypothalamic-pituitary-adrenal axis, acute stress also elevates cytokines in brain. Initially, to test possible cytokine involvement in this stress/withdrawal protocol, cytokines were increased in brain with 2 weekly repeated lipopolysaccharide (LPS) administrations (1000 microg/kg) [corrected] (LPS/withdrawal protocol) or with twice weekly intracerebroventricular (i.c.v.) administrations of the cytokines IL-1 beta, CCL2 (MCP-1) or TNFalpha (cytokine/withdrawal protocol) before exposure and withdrawal from a 5-day cycle of chronic ethanol diet. Both protocols sensitized withdrawal-induced anxiety and confirm cytokine involvement in the sensitized anxiety response. Testing of various doses of LPS (16-1000 microg/kg) and TNFalpha (3-100 ng, i.c.v.) demonstrated the dose-related nature of these protocols to sensitize withdrawal-induced anxiety. The sensitized anxiety was not produced by a single 5-day ethanol diet cycle or by repeated LPS or cytokine treatments alone. Likewise, sensitized anxiety in these protocols could not be attributed to differences in ethanol ingestion. When challenged with a subsequent re-exposure to a 5-day ethanol diet cycle 16 days after completion of the LPS/withdrawal or cytokine/withdrawal protocols, an increase in withdrawal-induced anxiety was observed-an indication of induction of an underlying persistent adaptive change. Finally, just as found previously with the stress/withdrawal protocol, administration of the benzodiazepine receptor antagonist flumazenil before the LPS or TNF treatments prevented anxiety sensitization. Together, these findings indicate that increased cytokine activity induces adaptive change that supports sensitization of ethanol withdrawal-induced anxiety that may be linked to GABA(A)-receptor function.
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PMID:Repeated lipopolysaccharide (LPS) or cytokine treatments sensitize ethanol withdrawal-induced anxiety-like behavior. 1755 40

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