Please use this identifier to cite or link to this item: https://biore.bio.bg.ac.rs/handle/123456789/6148
Title: The Effects of Corticosterone and Beta-Endorphin on Adherence, Phagocytosis and Hydrogen Peroxide Production of Macrophages Isolated from Dark Agouti Rats Exposed to Acute Stress
Authors: Stanojević, S.
Kuštrimović, N.
Mitić, K. 
Miletić, T.
Vujić, V.
Kovačević-Jovanović, V.
Dimitrijević, M.
Keywords: Corticosterone;;Dark Agouti rats;;Electric tail shock stress;;Beta-endorphin;Peritoneal macrophages;;Stress-witnessing procedure
Issue Date: 5-Aug-2008
Rank: M23
Publisher: Karger, Basel
Journal: Neuroimmunomodulation
Volume: 15
Issue: 2
Start page: 108
End page: 116
Abstract: 
Background: Given that stressful experiences can change the reaction to a subsequent exposure to stress, we tested the in vitro effects of the stress mediator corticosterone and the opioid peptide β-endorphin on the function of macrophages isolated from control rats and from rats exposed to electric tail shock stress (ES) or a stress-witnessing procedure (SW) 24 h earlier. Methods: Peritoneal macrophages isolated from control and stressed rats of the Dark Agouti (DA) strain were treated in vitro with corticosterone or β-endorphin and tested for adherence, phagocytosis and hydrogen peroxide release. Results: ES diminished adherence and SW decreased phagocytosis. The suppressive effect of corticosterone on phagocytosis was absent in rats exposed to ES and SW, while the suppressive effect of β-endorphin on adherence was not observed in rats exposed to SW. ES and SW did not affect H2O2 release, neither directly nor indirectly by changing macrophage response to corticosterone and β-endorphin in this test. Conclusions: In DA rats early macrophage activation steps, i.e. adherence and phagocytosis, were more sensitive to stress than their effector function, corresponding to H2O2 production. We suggest that neuroendocrine mediators of stress that converge on macrophages might have changed specific macrophage receptors or postreceptor events and alter their response to artificial stressors, represented by corticosterone and β-endorphin in vitro.
URI: https://biore.bio.bg.ac.rs/handle/123456789/6148
DOI: 10.1159/000148193
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