Gravity-Related Immunological Changes in Human Whole Blood Cultured Under Simulated Microgravity Using an In Vitro Cytokine Release Assay

Although immune dysfunction by space conditions has been reported postflight, as well as during ground-based experiments, the cause(s) and nature of the immunological changes are not completely understood. Microgravity has been suggested as one of the factors responsible for the observed immune dysr...

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Veröffentlicht in:Journal of interferon & cytokine research 2017-12, Vol.37 (12), p.531-540
Hauptverfasser: Van Walleghem, Merel, Tabury, Kevin, Fernandez-Gonzalo, Rodrigo, Janssen, Ann, Buchheim, Judith-Irina, Choukèr, Alexander, Baatout, Sarah, Moreels, Marjan
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container_end_page 540
container_issue 12
container_start_page 531
container_title Journal of interferon & cytokine research
container_volume 37
creator Van Walleghem, Merel
Tabury, Kevin
Fernandez-Gonzalo, Rodrigo
Janssen, Ann
Buchheim, Judith-Irina
Choukèr, Alexander
Baatout, Sarah
Moreels, Marjan
description Although immune dysfunction by space conditions has been reported postflight, as well as during ground-based experiments, the cause(s) and nature of the immunological changes are not completely understood. Microgravity has been suggested as one of the factors responsible for the observed immune dysregulation. The goal of this study was to assess immune changes in simulated microgravity (s-μG) using an in vitro cytokine release assay. The effect of s-μG provided by the desktop random positioning machine on cell-mediated immunity was examined by analyzing interleukin 2 (IL-2), interferon-γ (IFN-γ), tumor necrosis factor alpha (TNF-α), and interleukin 10 (IL-10), in response to immune cell stimulation in whole blood samples (n = 10). Stimuli used were bacterial recall antigens, pokeweed mitogen (PWM), lipopolysaccharide (LPS), or heat-killed Listeria monocytogenes (HKLM). S-μG caused an overall inhibition of the IL-2 and IFN-γ responses to recall antigen and mitogen stimulation. More specifically, s-μG most strongly influenced the levels of all four cytokines elicited by bacterial recall antigen stimulation. In contrast, HKLM-induced TNF-α secretion was elevated. The average concentrations of TNF-α in response to PWM and LPS and IL-10 release stimulated by PWM, LPS, and HKLM were not significantly altered by s-μG. However, a variable response between individual subjects could be observed. In conclusion, our results demonstrate that the in vitro cytokine release assay can detect gravity-related immune alterations. Furthermore, the use of multiple stimuli and the associated changes in cytokine secretion has the potential to reveal information on the underlying mechanisms affected by s-μG.
doi_str_mv 10.1089/jir.2017.0065
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subjects Adult
Anesthesiology
Antigens
Assaying
Astronauts
Bacteria
Blood
Blood Cells - cytology
Blood Cells - immunology
Cell culture
Cell-mediated immunity
Cytokines
Cytokines - blood
Cytokines - metabolism
Gravitation
Gravity
Healthy Volunteers
Humans
Immune system
Immunity
Immunity, Cellular
Immunology
Infections
Interferon
Interleukin 10
Interleukin 2
Laboratories
Lipopolysaccharides
Listeria
Listeria monocytogenes
Lymphocytes
Male
Microgravity
Nuclear physics
Pokeweed mitogen
Positioning devices (machinery)
Proteomics
Recall
Research centers
Signal transduction
Stimulation
Stimuli
Tumor necrosis factor-TNF
Tumor necrosis factor-α
Weightlessness
γ-Interferon
title Gravity-Related Immunological Changes in Human Whole Blood Cultured Under Simulated Microgravity Using an In Vitro Cytokine Release Assay
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