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)

We analyzed immune disturbances caused by the influence of spaceflight factors and proposed approaches for their correction. First, we determined the significant resistance of humoral immunity to the action of spaceflight factors, for example, B cell and immunoglobulin content, B cell reactivity to lipopolysaccharide, and distribution of B cell clones to trinitrophenyl (TNP group). A brief reversible increase of IgA and/or IgG concentration was the most characteristic shift observed. However, we noted prominent changes of T cells and natural killer (NK) cells, such as decreases in the content and phytohemagglutinin (PHA) reactivity of T lymphocytes, reduced T helper activity, and a reduction in NK cell cytotoxic activity in humans and animals during prolonged, spaceflights. Rat bone marrow cells showed a decreased response to macrophage colony-stimulating factor. Studies with rat lymph node cells showed that microgravity and spaceflight stressors may influence lymphocytes in a tissue-specific manner. In experiments on isolated cells, human lymphocytes produced interferon more intensively in a reduced-gravity (microgravity) environment than under terrestrial conditions. However, lymphocyte activation by concanavalin A was sharply suppressed. Under microgravity conditions the transfer of activating signal to protein kinase C was strongly reduced. Thus, in-flight disturbances of T and NK cell functions are quite significant and could cause some diseases. However, to date the in-flight immune dysfunctions have not been excessive. Probably, we are mainly dealing with a complex of changes of immunity in space that is similar to that in the presence of acute stress. Therefore, it is reasonable to consider stress-related immunotherapy approaches in the practice of space medicine. The most effective methods and approaches of modern immunotherapy, such as artificial vaccines, monoclonal antibodies and immunoconjugates, recombinant cytokines, or immunomodulators etc, are also reviewed.
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PMID:Countermeasures for ameliorating in-flight immune dysfunction. 837 Oct 54

This study examined the acute immunological effects of two laboratory stressors, expected to evoke distinct patterns of cardiac autonomic activity; namely an "active coping" time-paced memory test, and a "passive coping" stressful video showing surgical operations. We measured salivary S-IgA, IgA-subclasses (IgA1, IgA2), and secretory component (SC). SC is responsible for the transport of S-IgA across the epithelium, and thus a rate-determining step in S-IgA secretion. Thirty-two male undergraduates were subjected to both stressors and a control video (a didactic television program). The memory test induced a typical "fight-flight" response, characterized by increases in heart rate and blood pressure in association with a decrease in cardiac preejection period (PEP) and vagal tone. The surgical video produced a "conservation-withdrawal"-like response, characterized by an enhanced vagal tone, a decrease in heart rate, and a moderate sympathetic coactivation (as indicated by a shortened PEP and an increased systolic pressure). The memory test induced an increase in the concentration and, to a lesser extent, in the output of S-IgA, IgA], and SC. The output of IgA2 was not significantly affected. For the surgical video, a different pattern emerged: During stressor exposure S-IgA remained unaffected, against the background of a small increase in SC output. However, 10 min after the surgical video S-IgA levels had decreased. This decrease in S-IgA was paralleled by a decrease in IgA1, but not IgA2. We conclude that acute stress can have both enhancing and suppressive effects on secretory immunity, the IgA1 subclass in particular. The mechanisms that underlie these divergent responses may include stressor-specific patterns of autonomic activation.
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PMID:Differential effects of active versus passive coping on secretory immunity. 1157 7

Generalized self-efficacy is considered one of important personality traits that determine psychological and physiological stress responses. The present study examined the interaction effects of generalized self-efficacy and controllability of acute stress on salivary secretory immunoglobulin A (s-IgA), task performance, and psychological stress responses in a typical learned helplessness paradigm. Twenty low and 19 high self-efficacy undergraduate women performed two response selection tasks one after another. In the first task, they were exposed to controllable or uncontrollable aversive noise. The second task was identical for all, but perceived controllability was higher for the high self-efficacy group than the low. Performance under uncontrollable condition was lower than controllable condition. The interaction of self-efficacy and controllability was observed only on the s-IgA variable; increase of secretion of s-IgA secretion under stressor uncontrollability was more prominent in the low self-efficacy group than the high. These results suggested that generalized self-efficacy was a moderator of the stressor controllability effect on secretory immunity.
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PMID:[Learned helplessness, generalized self-efficacy, and immune function]. 1272 98

The normal concentrations of salivary secretory IgA (sIgA) were examined, and the response of sIgA to acute stress was evaluated in dogs. Ten clinically healthy beagle dogs familiarized with the method of saliva sampling were used. During the non-stress period, saliva samples were collected between 0800 hr and 1700 hr at 1-hr intervals for 7 consecutive days and analyzed for sIgA concentration. After a 1-day control period, a noise stressor was presented for 15 min between 0845 hr and 0900 hr on 2 consecutive days. Saliva was collected at pre-stress, immediately after, 30 min after and 60 min after the stress. The average sIgA concentration over the 2-day period was compared with the control value. Environmental stimuli were restricted. During the non-stress period, significant variations were observed during the diurnal pattern, in which sIgA increased in the morning and then decreased; and the day-to-day variations were significant except at 0800 hr and 0900 hr. During the stress experiments, the sIgA concentration decreased significantly, immediately after and 30 min after the noise stress, and then increased to the same level as the control value by 60 min after the stress. When estimating the effectiveness of salivary sIgA as a marker of stress in dogs, the appropriate time for saliva sampling appears to be in the morning. Salivary sIgA was deemed potentially useful as a marker of stress in dogs.
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PMID:Salivary secretory IgA concentrations in beagle dogs. 1286 28

Acute psychological stress has been shown to alter secretory immunity, principally secretory immunoglobulin A (S-IgA). Most acute stress tasks result in increases in S-IgA, but decreases have been reported in response to the cold pressor. However, the evidence is mixed, with increases and no changes in S-IgA in response to the cold pressor also being reported. It was hypothesised that differences in the timing of saliva sampling may provide an explanation for these discrepant results. Participants completed two 4-min cold pressor tasks, each preceded by a rest period in which baseline S-IgA was measured. In one condition, S-IgA was assessed during the final 2 min of the cold pressor; in the other, it was measured immediately after completion of the task. S-IgA decreased from baseline to task, regardless of timing of saliva sampling. It was concluded that differences in timing of sampling do not account for the mixed reports in the literature.
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PMID:Reductions in secretory immunoglobulin A to cold pressor stress are not influenced by timing of saliva sampling. 1501 73

L-Theanine is an amino acid contained in green tea leaves which is known to block the binding of L-glutamic acid to glutamate receptors in the brain. Because the characteristics of L-Theanine suggest that it may influence psychological and physiological states under stress, the present study examined these possible effects in a laboratory setting using a mental arithmetic task as an acute stressor. Twelve participants underwent four separate trials: one in which they took L-Theanine at the start of an experimental procedure, one in which they took L-Theanine midway, and two control trials in which they either took a placebo or nothing. The experimental sessions were performed by double-blind, and the order of them was counterbalanced. The results showed that L-Theanine intake resulted in a reduction in the heart rate (HR) and salivary immunoglobulin A (s-IgA) responses to an acute stress task relative to the placebo control condition. Moreover, analyses of heart rate variability indicated that the reductions in HR and s-IgA were likely attributable to an attenuation of sympathetic nervous activation. Thus, it was suggested that the oral intake of L-Theanine could cause anti-stress effects via the inhibition of cortical neuron excitation.
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PMID:L-Theanine reduces psychological and physiological stress responses. 1693 Aug 2

Previous research suggests that acute stress can increase the release of immune-relevant proteins in saliva. However, no attempts have been made to examine a wider range of salivary proteins in response to stress. In this study, we identified and quantified changes in the pattern of salivary protein release in a 45 min time period following the Trier Social Stress Test (TSST) in 12 asthmatic and 13 healthy participants. Proteins were separated using sodium dodecyl sulfate polyacrylamide gel electrophoresis. The relative protein amounts were quantified using the Image J software (NIH), and identified and characterized using mass spectroscopy. Negative affect was increased immediately after stress in both groups. The results showed that alpha amylase, cystatin S and light chain IgA were increased after the TSST and significant increases in glutathione S-transferase and prolactin inducible protein were also observed. Asthma patients showed responses similar to healthy controls, but had a tendency toward overall lower alpha amylase levels. Our findings suggest that a variety of proteins relevant to mucosal immunity are elevated following acute psychosocial stress, including glutathione S-transferase and prolactin inducible protein, which had not been characterized in this context before.
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PMID:Effects of psychosocial stress on the pattern of salivary protein release. 2205 39

The immune-suppression caused by acute stress can be reduced by a regular practice of moderate exercise which is known to modulate the expression of secretory-IgA. This antibody is essential for protection against infections and maintenance of homeostasis at the mucosal level. In order to explore the effects of moderate exercise on secretory-IgA production in ileum of the small intestine, 2 groups of mice were submitted to this protocol for 6 months, an exercise group and a sedentary group. After sacrifice, levels of secretory-IgA in intestinal fluid and levels of adrenal hormones in serum were determined by enzyme immunoenzymatic assay. IgA-plasma cells in lamina propria were evaluated by flow cytometry. Transcriptional mRNA expression in mucosa of alpha-chain, J-chain, pIgR and cytokines (Interleukin-2, -4, -6, -10, transforming growth factor-beta, interferon-gamma and tumor necrosis factor) were determined by RT-PCR. In comparison with sedentary mice, moderate exercised mice displayed an up-regulating effect on the production of secretory-IgA and IgA-plasma cells, on the expression of all mRNA transcripts from secretory-IgA associated proteins, and on all cytokines tested. However, serum levels of adrenal hormones were not altered. Future studies on secretory-IgA production are necessary to support the substantive effect of moderate exercise on protection and homeostasis at the intestinal level.
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PMID:Moderate exercise enhances expression of SIgA in mouse ileum. 2270 46

While acute stress is adaptive in the short term, chronic stress may interfere with HPA axis functioning and self-regulation that can, in turn, alter the body's immune response. Several studies suggest that acute and chronic stress consistently increase cortisol levels; however, the same cannot be said about S-IgA levels. We tested the effects of a mild chronic stress (an academic exam period), on cortisol and S-IgA responses to an acute stress. Exposure to an acute stressor significantly increases cortisol levels during periods of no-stress, but not during mild chronic stress, while S-IgA levels consistently increase during both sessions. Furthermore, we find that during the period of chronic mild stress, the perception of stress is related to increased cortisol response to an acute stressor. Combined, these findings shed light on the impact of increased background stress on acute stress responses.
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PMID:Differential effects of mild chronic stress on cortisol and S-IgA responses to an acute stressor. 2291 Mar 71

Undergraduate students routinely experience acute psychosocial stress when interviewing for post-collegiate employment. While numerous studies have demonstrated that acute stress can increase release of immune-relevant molecules in blood, fewer studies have examined if acute stress also increases immune-relevant molecules into saliva. Saliva, and the biomolecules found in saliva often serve important immune defense roles and can be used to non-invasively screen for many systemic diseases. Therefore, the current study examined saliva concentrations of endocrine and immune molecules following exposure to an acute psychosocial stressor (mock job interview) in undergraduates. Heart rate, blood pressure, salivary cortisol, salivary immunoglobulin-A (S-IgA), and salivary C-reactive protein (S-CRP) were compared in healthy college undergraduates (n=15) before and after completion of the Trier Social Stress Test (TSST). The TSST induced significant increases in heart rate, systolic blood pressure, and salivary cortisol. Additional analyses revealed a non-significant (p=0.1) increase in the level of S-IgA following the TSST. A significant decrease in S-IgA was observed during the recovery period. No change in S-CRP was observed following the TSST. These results suggest that acute stress experienced by undergraduates when interviewing for a job activates the sympathetic nervous system and hypothalamic-pituitary-adrenal axis and that cortisol levels increase in saliva. Stress-induced elevations in cortisol might be responsible for the decreased S-IgA observed following the recovery period. Collectively, these data provide further insight into the interaction between psychosocial stress, endocrine, and immune functioning.
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PMID:Acute psychosocial stress differentially influences salivary endocrine and immune measures in undergraduate students. 2298 15

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