Red Blood Cell Aging as a Homeostatic Response to Exercise-Induced Stress

Red Blood Cell Aging as a Homeostatic Response to Exercise-Induced Stress

Our knowledge on the molecular mechanisms of red blood cell aging is mostly derived from in vitro studies. The Four Days Marches of Nijmegen in the Netherlands, the world’s largest yearly walking event, constitutes a unique possibility to study the effect of mechanical and biochemical stre...

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Main Authors: Joames K. Freitas Leal, Dan Lazari, Coen C.W.G. Bongers, Maria T.E. Hopman, Roland Brock, Giel J.C.G.M. Bosman
Format: Article
Language:English
Published: MDPI AG 2019-11-01
Series:Applied Sciences
Subjects:
aggregation
aging
deformability
red blood cell
exercise
Online Access:https://www.mdpi.com/2076-3417/9/22/4827
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spelling doaj-45b8fe37e6c14d4eafca2c58e823a5822020-11-24T21:33:39ZengMDPI AGApplied Sciences2076-34172019-11-01922482710.3390/app9224827app9224827Red Blood Cell Aging as a Homeostatic Response to Exercise-Induced StressJoames K. Freitas Leal0Dan Lazari1Coen C.W.G. Bongers2Maria T.E. Hopman3Roland Brock4Giel J.C.G.M. Bosman5Department of Biochemistry, Radboud University Medical Center, 6525 GA Nijmegen, The NetherlandsDepartment of Biochemistry, Radboud University Medical Center, 6525 GA Nijmegen, The NetherlandsDepartment of Physiology, Radboud Institute for Molecular Life Sciences and Radboud Institute for Health Sciences, 6525 GA Nijmegen, The NetherlandsDepartment of Physiology, Radboud Institute for Molecular Life Sciences and Radboud Institute for Health Sciences, 6525 GA Nijmegen, The NetherlandsDepartment of Biochemistry, Radboud University Medical Center, 6525 GA Nijmegen, The NetherlandsDepartment of Biochemistry, Radboud University Medical Center, 6525 GA Nijmegen, The NetherlandsOur knowledge on the molecular mechanisms of red blood cell aging is mostly derived from in vitro studies. The Four Days Marches of Nijmegen in the Netherlands, the world’s largest yearly walking event, constitutes a unique possibility to study the effect of mechanical and biochemical stressors occurring during moderate-intensity exercise on red blood cell aging in vivo. Therefore, longitudinal measurements were performed of biophysical, immunological, and functional red blood cell characteristics that are known to change during aging. Our data show that moderate-intensity exercise induces the generation of a functionally improved red blood cell population with a higher deformability and a decreased tendency to aggregate. This is likely to be associated with an early removal of the oldest red blood cells from the circulation, as deduced from the (dis)appearance of removal signals. Thus, the physiological red blood cell aging process maintains homeostasis in times of moderate-intensity exercise-induced stress, probably by accelerated aging and subsequent removal of the oldest, most vulnerable red blood cells.https://www.mdpi.com/2076-3417/9/22/4827aggregationagingdeformabilityred blood cellexercise
collection DOAJ
language English
format Article
sources DOAJ
author Joames K. Freitas Leal
Dan Lazari
Coen C.W.G. Bongers
Maria T.E. Hopman
Roland Brock
Giel J.C.G.M. Bosman
spellingShingle Joames K. Freitas Leal
Dan Lazari
Coen C.W.G. Bongers
Maria T.E. Hopman
Roland Brock
Giel J.C.G.M. Bosman
Red Blood Cell Aging as a Homeostatic Response to Exercise-Induced Stress
Applied Sciences
aggregation
aging
deformability
red blood cell
exercise
author_facet Joames K. Freitas Leal
Dan Lazari
Coen C.W.G. Bongers
Maria T.E. Hopman
Roland Brock
Giel J.C.G.M. Bosman
author_sort Joames K. Freitas Leal
title Red Blood Cell Aging as a Homeostatic Response to Exercise-Induced Stress
title_short Red Blood Cell Aging as a Homeostatic Response to Exercise-Induced Stress
title_full Red Blood Cell Aging as a Homeostatic Response to Exercise-Induced Stress
title_fullStr Red Blood Cell Aging as a Homeostatic Response to Exercise-Induced Stress
title_full_unstemmed Red Blood Cell Aging as a Homeostatic Response to Exercise-Induced Stress
title_sort red blood cell aging as a homeostatic response to exercise-induced stress
publisher MDPI AG
series Applied Sciences
issn 2076-3417
publishDate 2019-11-01
description Our knowledge on the molecular mechanisms of red blood cell aging is mostly derived from in vitro studies. The Four Days Marches of Nijmegen in the Netherlands, the world’s largest yearly walking event, constitutes a unique possibility to study the effect of mechanical and biochemical stressors occurring during moderate-intensity exercise on red blood cell aging in vivo. Therefore, longitudinal measurements were performed of biophysical, immunological, and functional red blood cell characteristics that are known to change during aging. Our data show that moderate-intensity exercise induces the generation of a functionally improved red blood cell population with a higher deformability and a decreased tendency to aggregate. This is likely to be associated with an early removal of the oldest red blood cells from the circulation, as deduced from the (dis)appearance of removal signals. Thus, the physiological red blood cell aging process maintains homeostasis in times of moderate-intensity exercise-induced stress, probably by accelerated aging and subsequent removal of the oldest, most vulnerable red blood cells.
topic aggregation
aging
deformability
red blood cell
exercise
url https://www.mdpi.com/2076-3417/9/22/4827
work_keys_str_mv AT joameskfreitasleal redbloodcellagingasahomeostaticresponsetoexerciseinducedstress
AT danlazari redbloodcellagingasahomeostaticresponsetoexerciseinducedstress
AT coencwgbongers redbloodcellagingasahomeostaticresponsetoexerciseinducedstress
AT mariatehopman redbloodcellagingasahomeostaticresponsetoexerciseinducedstress
AT rolandbrock redbloodcellagingasahomeostaticresponsetoexerciseinducedstress
AT gieljcgmbosman redbloodcellagingasahomeostaticresponsetoexerciseinducedstress
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