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)

This review article integrates empirical findings from various scientific disciplines into a proposed psychoneuroimmunological (PNI) model of the acute coronary syndrome (ACS). Our starting point is an existing, mild, atherosclerotic plaque and a dysfunctional endothelium. The ACS is triggered by three stages. (1) Plaque instability: Pro-inflammatory cytokines (IL-1, IL-6, TNF-alpha) and chemoattractants (MCP-1, IL-8) induce leukocyte chemoattraction to the endothelium, and together with other triggers such as the CD40L-CD40 co-stimulation system activate plaque monocytes (macrophages). The macrophages then produce matrix metalloproteinases that disintegrate extra-cellular plaque matrix, causing coronary plaque instability. Acute stress, hostility, depression and vital exhaustion (VE) have been associated with elevated pro-inflammatory cytokines and leukocyte levels and their recruitment. (2) Extra-plaque factors promoting rupture: Neuro-endocrinological factors (norepinephrine) and cytokines induce vasoconstriction and elevated blood pressure (BP), both provoking a vulnerable plaque to rupture. Hostility/anger and acute stress can lead to vasoconstriction and elevated BP via catecholamines. (3) Superimposed thrombosis at a ruptured site: Increases in coagulation factors and reductions in anticoagulation factors (e.g. protein C) induced by inflammatory factors enhance platelet aggregation, a key stage in thrombosis. Hostility, depression and VE have been positively correlated with platelet aggregation. Thrombosis can lead to severe coronary occlusion, clinically manifested as an ACS. Thus, PNI processes might, at least in part, contribute to the pathogenesis of the ACS. This chain of events may endure due to lack of neuroendocrine-to-immune negative feedback stemming from cortisol resistance. This model has implications for the use of psychological interventions in ACS patients.
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PMID:Molecular and cellular interface between behavior and acute coronary syndromes. 1223 62

Psychosocial stress is suggested to play a significant role in development of cardiovascular disease. To evaluate the effects of repeated exposure to stress on atherosclerosis in atherosclerosis-prone ApoE(-/-) mice we used five different stressors. We further sought to determine whether stress combined with high salt diet induces dysfunctional neurohormonal regulation and impaired salt excretion, thus amplifying the atherogenic potential of salt. The five stressors were evaluated in male C57BL/6 mice and ApoE(-/-) mice (studies I and II) and then used in female ApoE(-/-) mice to study their effect on atherosclerosis (study III). The mice in study III received standard or high salt diet (8%) alone or in combination with stress for 12 weeks. Urine and plasma were collected for corticosterone and lipid analysis, respectively. Acute blood pressure (BP) and heart rate (HR) responses to stress were measured using telemetry. Plaque burden was assessed in the thoracic aorta and aortic root. Plaque morphology was investigated regarding macrophages and collagen content. Urinary corticosterone chronically increased in stressed mice (P<0.05 control vs. stress, P<0.05 control salt vs. stress salt). BP and HR increased acutely during all stressors (P<0.05). Body weight gain decreased significantly in the stress group (P<0.05 vs. control). However, stress did not alter plasma lipid levels, plaque area or plaque morphology. Increased BP and HR suggest an acute stress-related response in ApoE(-/-) mice. Furthermore, stress chronically decreased body weight gain and increased urinary corticosterone levels. Notably, despite an apparent stress effect, stress affected neither atherogenesis nor plaque morphology.
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PMID:Repeated exposure to stressors do not accelerate atherosclerosis in ApoE-/- mice. 1883 87