Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0848237 (acute stress)
 4,619 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Commercial rearing conditions expose teleost fish to numerous acute and chronic stressors that may precipitate dramatic production losses due to infectious diseases. Chemical mediators released in response to acute stress include the catecholamines, epinephrine and norepinephrine. Mammalian lymphocytes and macrophages express beta-adrenergic receptors (AR) that can bind catecholamines, leading to changes in cell function. In this study, radioligand binding assays demonstrated the presence of beta-AR in membranes isolated from head kidney and spleen leukocytes of the channel catfish, Ictalurus punctatus. Competition with subtype selective antagonists CGP-20,712 (beta1) and ICI-118,551 (beta2) suggested that the beta2-adrenergic receptor is the primary receptor subtype present on these membranes. These data along with the HPLC-quantification of catecholamines in plasma of I. punctatus lend further support to the contention that crosstalk between the neuroendocrine and immune systems in lower vertebrates is mediated in part by stress-related biogenic amines like epinephrine and norepinephrine.
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PMID:Beta-adrenergic receptors on leukocytes of the channel catfish, Ictalurus punctatus. 1179 23

In various stressful conditions, the thymus is subjected to incidental involution, mostly due to the thymocytolytic effect of secreted glucocorticosteroids. The aim of this study was to examine acute thymic involution in sick neonates and to compare the morphological grade with some clinical and laboratory parameters. The influence of the illness on thymus tissue was investigated in 100 neonates who were treated and died in a neonatology intensive care unit. The preterm infants (n = 73) were born before the 37th week of gestation. Analysis of 57 placentas showed inflammation in 32% and circulatory disturbances in 23% of the cases. The causes of death were confirmed by autopsy: 35 were preterm infants with respiratory distress syndrome without infection, 22 were malformed, and 10 had birth trauma or asphyxia. In contrast, 29 of the preterm infants had an infection, mostly pneumonia or sepsis, and 4 of the term infants had such infections. Acute thymus involution was histologically graded (0-4) according to the method of van Baarlen (see text). Resting state (grade 0) was found in 25 of 38 neonates who lived <12 h. In 13 of 38 neonates who lived <12 h, thymus involution suggested prenatal stress. The grade of thymus involution related to the duration of illness (p < 0.001). Placental inflammation was associated with features of thymus involution (p < 0.048). Infection as a cause of death was connected to advanced thymus involution (p < 0.001). In preterm newborns, infection was more often connected with acute thymus involution than was respiratory distress syndrome (p < 0.003). Among the parameters measured in all available peripheral blood samples taken 24 h before death, only the lymphocyte count related to the grade of acute thymus involution (p < 0.05), with an increase in percentage of lymphocytes in peripheral blood smears from grade 0 to 2 and a decrease from grade 2 to 4. Although the white blood cell count is highly variable, a low percentage of lymphocytes might be a sign of advanced accidental thymus involution following acute stress.
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PMID:The grade of acute thymus involution in neonates correlates with the duration of acute illness and with the percentage of lymphocytes in peripheral blood smear. Pathological study. 1274 50

Drug abuse is a global problem of considerable concern to health. One such health concern stems from the fact that many drugs of abuse have immunosuppressive actions and consequently have the potential to increase susceptibility to infectious disease. This article is focused on the impact of the amphetamine derivative, methylenedioxymethamphetamine (MDMA; 'Ecstasy') on immunity. Research conducted over the last 5 years, in both laboratory animals and humans, has demonstrated that MDMA has immunosuppressive actions. Specifically, MDMA suppresses neutrophil phagocytosis, suppresses production of the pro-inflammatory cytokines tumour necrosis factor-alpha (TNF-alpha) and interleukin (IL)-1beta, and increases production of the endogenous immunosuppressive cytokine (IL-10), thereby promoting an immunosuppressive cytokine phenotype. MDMA also suppresses circulating lymphocyte numbers, with CD4+ T cells being particularly affected, and alters T-cell function as indicated by reduced mitogen-stimulated T-cell proliferation, and a skewing of T-cell cytokine production in a T helper 2 (Th2) direction. For the most part, the aforementioned effects of MDMA are not the result of a direct action of the drug on immune cells, but rather caused by the release of endogenous immunomodulatory substances. Consequently, the physiological mechanisms that are thought to underlie the immunosuppressive effects of MDMA will be discussed. As many of the physiological changes elicited by MDMA closely resemble those induced by acute stress, it is suggested that exposure to MDMA could be regarded as a 'chemical stressor' on the immune system. Finally, the potential of MDMA-induced immunosuppression to translate into significant health risks for abusers of the drug will be discussed.
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PMID:Methylenedioxymethamphetamine (MDMA, 'Ecstasy'): a stressor on the immune system. 1505 70

Organochlorines (OCs), notably polychlorinated biphenyls (PCBs) and 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD), are ubiquitous environmental contaminants. Contaminant-induced immunosuppression by OCs has been implicated as a co-factor in the deaths of thousands of marine mammals in infectious disease epizootics over the last two decades, and limited studies support the hypothesis that PCBs are immunomodulatory. This study represented a unique opportunity to assess the potential differences in susceptibility to OCs between captive and free-ranging sea otters originating from the same genetic population. In vitro immune assays were utilized to evaluate both innate (phagocytosis and respiratory burst) and acquired (mitogen-induced B and T lymphocyte proliferation) immune functions. Individual PCBs (138, 153, 169 and 180) as well as TCDD and all 26 possible combinations were tested. Mixtures were tested as they represent 'real life' exposure. Our results suggest that (1) different immune functions were sensitive to different OC mixtures in both magnitude and direction (enhancement/suppression) and (2) differences in sensitivities upon in vitro exposure to OCs occurred between free-ranging and captive otters. Differences in susceptibility could be explained by the acute stress of capture, the chronic stress of captivity or nutritional differences. Understanding differences in toxicity to different populations of sea otters will have important implications for risk assessment as well as conservation and management strategies.
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PMID:Immunomodulatory effects of organochlorine mixtures upon in vitro exposure of peripheral blood leukocytes differ between free-ranging and captive southern sea otters (Enhydra lutris). 1762 73

Risk of developing certain diseases correlates with human personality. Cardiologists have defined Type "A" personalities as coronary-prone. Associated psychological peculiarities are easily angered, competitive, impatient and hard-driving. Psychologically-opposite people who are prone to suppress emotions and avoid conflicts (Type "C"), have a high risk of infectious diseases and certain forms of cancer. The development of contemporary biology and medicine determined an important role of the neuroendocrine and immune systems in these correlations. The peculiarity of human personality, as much as of animal behavioral patterns, is strongly expressed under stress conditions. The strategies of stress coping display a normal distribution in the human and wild animal populations, with truly passive and active coping styles located at the outermost regions of the curve. However, there are a number of strategies to breed experimental animals with extreme coping styles; animals selected for a passive coping style to acute stress show marked activation of the hypothalamic-pituitary-adrenal (HPA) axis and low stimulation of the sympathetic-adrenal system; both are associated with immunosuppression. An opposite reaction of the neuroendocrine system has been shown in animals with an active coping style to stress; this was associated with the signs of immunostimulation. Similarly, people with passive coping style (type "C") might be at higher risk of infectious diseases and cancer, while people with active coping style (type "A") might be predisposed to coronary, allergic, and autoimmune diseases. Furthermore, pain, decreased productivity, and anxiety, all common in patients with different diseases, are additional stressful entities. Thus, an adequate coping with a disease is an important approach to improve life quality and disease prognosis. Therefore, psychological and psychopharmacotherapeutic interventions that enhance effective coping should have beneficial effects in patients with immune-mediated diseases.
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PMID:Personality, coping style, and constitutional neuroimmunology. 1856 93

As anthropogenic stressors increase exponentially in the coming decades, native vertebrates will likely face increasing threats from these novel challenges. The success or failure of the primary physiological mediator of these stressors--the HPA axis--will likely involve numerous and chaotic outcomes. Among the most challenging of these new threats are invasive species. These have the capacity to simultaneously challenge the HPA axis and the immune system as they are often associated with, or the cause of, emerging infectious diseases, and energetic tradeoffs with the HPA response can have immunosuppressive effects. To determine the effects of invasive species on the vertebrate GC response to a novel stressor, and on immunity, we examined the effects of invasive fire ants on native lizards, comparing lizards from sites with long histories with fire ants to those outside the invasion zone. We demonstrated higher baseline and acute stress (captive restraint) CORT levels in lizards from within fire ant invaded areas; females are more strongly affected than males, suggesting context-specific effects of invasion. We found no effect of fire ant invasion on the immune parameters we measured (complement bacterial lysis and antibody hemagglutination) with the exception of ectoparasite infestation. Mites were far less prevalent on lizards within fire ant invaded sites, suggesting fire ants may actually benefit lizards in this regard. This study suggests that invasive species may impose physiological stress on native vertebrates, but that the consequences of this stress may be complicated and unpredictable.
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PMID:The impacts of invaders: basal and acute stress glucocorticoid profiles and immune function in native lizards threatened by invasive ants. 2222 59

Fish are exposed to many kinds of environmental stressors and the chances of succumbing to infectious diseases may be increased a result. For example, an acute increase in temperature can induce numerous physiological changes in the body. In the present study, we examined the redox state in response to a severe acute stress resulting from heat shock in teleost coho salmon (Oncorhynchus kisutch). The plasma lipid peroxides levels in fish gradually increased after heat shock treatment. By 2.5 h post-heat stress, plasma glutathione (GSH) levels had decreased, but they had returned to basal levels by 17.5 h post-stress. Plasma superoxide dismutase activities in stressed fish were significantly increased compared with those in control fish at 17.5 h post-stress, but had returned to basal levels by 48 h post-stress. Expression levels of hepatic GSH and heat shock protein 70 gradually increased after heat shock treatment. These results concerning the changing patterns of multiple important redox-related biomarkers suggest that severe thermal stressors can affect the redox state and induce oxidative stress in ectothermal animals, such as fish, in vivo. Hence, manipulation of appropriate thermal treatment may possibly be useful to control fish fitness.
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PMID:Effect of severe environmental thermal stress on redox state in salmon. 2500 78

An individual's susceptibility to psychological and physical disorders associated with chronic stress exposure, for example, cardiovascular and infectious disease, may also be predicted by their reactivity to acute stress. One factor associated with both stress resilience and health outcomes is personality. An understanding of how personality influences responses to acute stress may shed light upon individual differences in susceptibility to chronic stress-linked disease. This study examined the relationships between personality and acute responses to stress in 125 healthy adults, using hierarchical linear regression. We assessed personality traits using the Multidimensional Personality Questionnaire (MPQ-BF), and responses to acute stress (cortisol, heart rate, blood pressure, mood) using a standardized laboratory psychosocial stress task, the Trier Social Stress Test. Individuals with high Negative Emotionality exhibited greater emotional distress and lower blood pressure responses to the Trier Social Stress Test. Individuals with high agentic Positive Emotionality exhibited prolonged heart rate responses to stress, whereas those with high communal Positive Emotionality exhibited smaller cortisol and blood pressure responses. Separate personality traits differentially predicted emotional, cardiovascular, and cortisol responses to a psychosocial stressor in healthy volunteers. Future research investigating the association of personality with chronic stress-related disease may provide further clues to the relationship between acute stress reactivity and susceptibility to disease.
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PMID:Personality traits modulate emotional and physiological responses to stress. 2503 30

Malfunction of the trabecular meshwork (TM)/schlemm's canal (SC) conventional outflow pathway is associated with elevated intraocular pressure (IOP) and, therefore, increased risk of developing glaucoma, a potentially blinding disease affecting more than 70 million people worldwide. This TM/SC tissue is subjected to different types of stress, including mechanical, oxidative, and phagocytic stress. Long-term exposure to these stresses is believed to lead to a progressive accumulation of damaged cellular and tissue structures causing permanent alterations in the tissue physiology, and contribute to the pathologic increase in aqueous humor (AH) outflow resistance. Autophagy is emerging as an essential cellular survival mechanism against a variety of stressors. In addition to performing basal functions, autophagy acts as a cellular survival pathway and represents an essential mechanism by which organisms can adapt to acute stress conditions and repair stress-induced damage. A decline in autophagy has been observed in most tissues with aging and has been considered responsible, at least in part, for the accumulation of damaged cellular components in almost all tissues of aging organisms. Dysfunction in the autophagy pathway is associated with several human diseases, from infectious diseases to cancer and neurodegeneration. In this review, we will summarize our current knowledge of the emerging roles of autophagy in outflow tissue physiology and pathophysiology, including novel evidence suggesting compromised autophagy in the glaucomatous outflow pathway.
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PMID:The autophagic lysosomal system in outflow pathway physiology and pathophysiology. 2622 31

Variation in immune defense influences infectious disease dynamics within and among species. Understanding how variation in immunity drives pathogen transmission among species is especially important for animals that are reservoir hosts for zoonotic pathogens. Bats, in particular, have a propensity to host serious viral zoonoses without developing clinical disease themselves. The immunological adaptations that allow bats to host viruses without disease may be related to their adaptations for flight (e.g., in metabolism and mediation of oxidative stress). A number of analyses report greater richness of zoonotic pathogens in bats than in other taxa, such as birds (i.e., mostly volant vertebrates) and rodents (i.e., nonvolant small mammals), but immunological comparisons between bats and these other taxa are rare. To examine interspecific differences in bacterial killing ability (BKA), a functional measure of overall constitutive innate immunity, we use a phylogenetic meta-analysis to compare how BKA responds to the acute stress of capture and to storage time of frozen samples across the orders Aves and Chiroptera. After adjusting for host phylogeny, sample size, and total microbe colony-forming units, we find preliminary evidence that the constitutive innate immune defense of bats may be more resilient to handling stress and storage time than that of birds. This pattern was also similar when we analyzed the proportion of nonnegative and positive effect sizes per species, using phylogenetic comparative methods. We discuss potential physiological and evolutionary mechanisms by which complement proteins may differ between species orders and suggest future avenues for comparative field studies of immunity between sympatric bats, birds, and rodents in particular.
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PMID:Handling Stress and Sample Storage Are Associated with Weaker Complement-Mediated Bactericidal Ability in Birds but Not Bats. 3048 Nov 15


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