Stress Related Shift Toward Inflammaging in Cosmonauts After Long-Duration Space Flight

Stress Related Shift Toward Inflammaging in Cosmonauts After Long-Duration Space Flight

Space flight exerts a specific conglomerate of stressors on humans that can modulate the immune system. The mechanism remains to be elucidated and the consequences for cosmonauts in the long term are unclear. Most of the current research stems from short-term spaceflights as well as pre- and post-fl...

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Main Authors: Judith-Irina Buchheim, Sandra Matzel, Marina Rykova, Galina Vassilieva, Sergey Ponomarev, Igor Nichiporuk, Marion Hörl, Dominique Moser, Katharina Biere, Matthias Feuerecker, Gustav Schelling, Detlef Thieme, Ines Kaufmann, Manfred Thiel, Alexander Choukèr
Format: Article
Language:English
Published: Frontiers Media S.A. 2019-02-01
Series:Frontiers in Physiology
Subjects:
space flight
anandamide
stress
regulatory T cells
CD8+ memory T cells
inflammaging
Online Access:https://www.frontiersin.org/article/10.3389/fphys.2019.00085/full
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record_format Article
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language English
format Article
sources DOAJ
author Judith-Irina Buchheim
Sandra Matzel
Marina Rykova
Galina Vassilieva
Sergey Ponomarev
Igor Nichiporuk
Marion Hörl
Dominique Moser
Katharina Biere
Matthias Feuerecker
Gustav Schelling
Detlef Thieme
Ines Kaufmann
Ines Kaufmann
Manfred Thiel
Alexander Choukèr
spellingShingle Judith-Irina Buchheim
Sandra Matzel
Marina Rykova
Galina Vassilieva
Sergey Ponomarev
Igor Nichiporuk
Marion Hörl
Dominique Moser
Katharina Biere
Matthias Feuerecker
Gustav Schelling
Detlef Thieme
Ines Kaufmann
Ines Kaufmann
Manfred Thiel
Alexander Choukèr
Stress Related Shift Toward Inflammaging in Cosmonauts After Long-Duration Space Flight
Frontiers in Physiology
space flight
anandamide
stress
regulatory T cells
CD8+ memory T cells
inflammaging
author_facet Judith-Irina Buchheim
Sandra Matzel
Marina Rykova
Galina Vassilieva
Sergey Ponomarev
Igor Nichiporuk
Marion Hörl
Dominique Moser
Katharina Biere
Matthias Feuerecker
Gustav Schelling
Detlef Thieme
Ines Kaufmann
Ines Kaufmann
Manfred Thiel
Alexander Choukèr
author_sort Judith-Irina Buchheim
title Stress Related Shift Toward Inflammaging in Cosmonauts After Long-Duration Space Flight
title_short Stress Related Shift Toward Inflammaging in Cosmonauts After Long-Duration Space Flight
title_full Stress Related Shift Toward Inflammaging in Cosmonauts After Long-Duration Space Flight
title_fullStr Stress Related Shift Toward Inflammaging in Cosmonauts After Long-Duration Space Flight
title_full_unstemmed Stress Related Shift Toward Inflammaging in Cosmonauts After Long-Duration Space Flight
title_sort stress related shift toward inflammaging in cosmonauts after long-duration space flight
publisher Frontiers Media S.A.
series Frontiers in Physiology
issn 1664-042X
publishDate 2019-02-01
description Space flight exerts a specific conglomerate of stressors on humans that can modulate the immune system. The mechanism remains to be elucidated and the consequences for cosmonauts in the long term are unclear. Most of the current research stems from short-term spaceflights as well as pre- and post-flight analyses due to operational limitations. Immune function of 12 cosmonauts participating in a long-duration (>140 days) spaceflight mission was monitored pre-, post-, and on two time-points in-flight. While the classical markers for stress such as cortisol in saliva where not significantly altered, blood concentrations of the endocannabinoid system (ECS) were found to be highly increased in-flight indicating a biological stress response. Moreover, subjects showed a significant rise in white blood cell counts. Neutrophils, monocytes and B cells increased by 50% whereas NK cells dropped by nearly 60% shortly after landing. Analysis of blood smears showed that lymphocyte percentages, though unchanged pre- and post-flight were elevated in-flight. Functional tests on the ground revealed stable cellular glutathione levels, unaltered baseline and stimulated ROS release in neutrophils but an increased shedding of L-selectin post-flight. In vitro stimulation of whole blood samples with fungal antigen showed a highly amplified TNF and IL-1β response. Furthermore, a significant reduction in CD4+CD25+CD27low regulatory T cells was observed post-flight but returned to normal levels after one month. Concomitantly, high in-flight levels of regulatory cytokines TGF-β, IL-10 and IL-1ra dropped rapidly after return to Earth. Finally, we observed a shift in the CD8+ T cell repertoire toward CD8+ memory cells that lasted even one month after return to Earth.Conclusion: Long-duration spaceflight triggered a sustained stress dependent release of endocannabinoids combined with an aberrant immune activation mimicking features of people at risk for inflammation related diseases. These effects persisted in part 30 days after return to Earth. The currently available repertoire of in-flight testing as well as the post-flight observation periods need to be expanded to tackle the underlying mechanism for and consequences of these immune changes in order to develop corresponding mitigation strategies based on a personalized approach for future interplanetary space explorations.
topic space flight
anandamide
stress
regulatory T cells
CD8+ memory T cells
inflammaging
url https://www.frontiersin.org/article/10.3389/fphys.2019.00085/full
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spelling doaj-ed1ca89482664a2386f20260bb5b901c2020-11-24T22:17:00ZengFrontiers Media S.A.Frontiers in Physiology1664-042X2019-02-011010.3389/fphys.2019.00085380818Stress Related Shift Toward Inflammaging in Cosmonauts After Long-Duration Space FlightJudith-Irina Buchheim0Sandra Matzel1Marina Rykova2Galina Vassilieva3Sergey Ponomarev4Igor Nichiporuk5Marion Hörl6Dominique Moser7Katharina Biere8Matthias Feuerecker9Gustav Schelling10Detlef Thieme11Ines Kaufmann12Ines Kaufmann13Manfred Thiel14Alexander Choukèr15Laboratory of Translational Research “Stress and Immunity”, Department of Anesthesiology, Hospital of the University of Munich, LMU, Munich, GermanyLaboratory of Translational Research “Stress and Immunity”, Department of Anesthesiology, Hospital of the University of Munich, LMU, Munich, GermanyInstitute of Biomedical Problems, Russian Academy of Sciences, Moscow, RussiaInstitute of Biomedical Problems, Russian Academy of Sciences, Moscow, RussiaInstitute of Biomedical Problems, Russian Academy of Sciences, Moscow, RussiaInstitute of Biomedical Problems, Russian Academy of Sciences, Moscow, RussiaLaboratory of Translational Research “Stress and Immunity”, Department of Anesthesiology, Hospital of the University of Munich, LMU, Munich, GermanyLaboratory of Translational Research “Stress and Immunity”, Department of Anesthesiology, Hospital of the University of Munich, LMU, Munich, GermanyLaboratory of Translational Research “Stress and Immunity”, Department of Anesthesiology, Hospital of the University of Munich, LMU, Munich, GermanyLaboratory of Translational Research “Stress and Immunity”, Department of Anesthesiology, Hospital of the University of Munich, LMU, Munich, GermanyLaboratory of Translational Research “Stress and Immunity”, Department of Anesthesiology, Hospital of the University of Munich, LMU, Munich, GermanyInstitute of Doping Analysis and Sports Biochemistry, Dresden, GermanyLaboratory of Translational Research “Stress and Immunity”, Department of Anesthesiology, Hospital of the University of Munich, LMU, Munich, GermanyDepartment of Anesthesiology, Hospital Munich-Neuperlach, Munich, GermanyDepartment of Anesthesiology and Surgical Intensive Care Medicine, University Medical Center Mannheim, Medical Faculty Mannheim, Heidelberg University, Mannheim, GermanyLaboratory of Translational Research “Stress and Immunity”, Department of Anesthesiology, Hospital of the University of Munich, LMU, Munich, GermanySpace flight exerts a specific conglomerate of stressors on humans that can modulate the immune system. The mechanism remains to be elucidated and the consequences for cosmonauts in the long term are unclear. Most of the current research stems from short-term spaceflights as well as pre- and post-flight analyses due to operational limitations. Immune function of 12 cosmonauts participating in a long-duration (>140 days) spaceflight mission was monitored pre-, post-, and on two time-points in-flight. While the classical markers for stress such as cortisol in saliva where not significantly altered, blood concentrations of the endocannabinoid system (ECS) were found to be highly increased in-flight indicating a biological stress response. Moreover, subjects showed a significant rise in white blood cell counts. Neutrophils, monocytes and B cells increased by 50% whereas NK cells dropped by nearly 60% shortly after landing. Analysis of blood smears showed that lymphocyte percentages, though unchanged pre- and post-flight were elevated in-flight. Functional tests on the ground revealed stable cellular glutathione levels, unaltered baseline and stimulated ROS release in neutrophils but an increased shedding of L-selectin post-flight. In vitro stimulation of whole blood samples with fungal antigen showed a highly amplified TNF and IL-1β response. Furthermore, a significant reduction in CD4+CD25+CD27low regulatory T cells was observed post-flight but returned to normal levels after one month. Concomitantly, high in-flight levels of regulatory cytokines TGF-β, IL-10 and IL-1ra dropped rapidly after return to Earth. Finally, we observed a shift in the CD8+ T cell repertoire toward CD8+ memory cells that lasted even one month after return to Earth.Conclusion: Long-duration spaceflight triggered a sustained stress dependent release of endocannabinoids combined with an aberrant immune activation mimicking features of people at risk for inflammation related diseases. These effects persisted in part 30 days after return to Earth. The currently available repertoire of in-flight testing as well as the post-flight observation periods need to be expanded to tackle the underlying mechanism for and consequences of these immune changes in order to develop corresponding mitigation strategies based on a personalized approach for future interplanetary space explorations.https://www.frontiersin.org/article/10.3389/fphys.2019.00085/fullspace flightanandamidestressregulatory T cellsCD8+ memory T cellsinflammaging

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