TY - JOUR
T1 - The effect of exercise on regulatory T cells
T2 - A systematic review of human and animal studies with future perspectives and methodological recommendations
AU - Proschinger, Sebastian
AU - Winker, Matteo
AU - Joisten, Niklas
AU - Bloch, Wilhelm
AU - Palmowski, Jana
AU - Zimmer, Philipp
N1 - Copyright © 2021 International Society of Exercise and Immunology. All rights reserved.
PY - 2021
Y1 - 2021
N2 - Many of the exercise-related health-promoting effects are attributed to beneficial immunomodulation. The restoration of immune homeostasis is context-dependent, meaning either to increase anti-inflammatory signaling to counteract disease progression of non-communicable (auto)inflammatory diseases or to enhance (local) activity of proinflammatory immune cells to slow down or inhibit cancer progression. Regulatory CD4+ T cells (Tregs) represent the main regulatory component of the adaptive immune system that fine-tunes inflammatory responses, keeps them in check and prevents long-lasting autoimmunity. Because often dysregulated in the context of various diseases, emerging treatment approaches aim to modulate their number or inherent anti-inflammatory and immunosuppressive function in a highly disease-specific way. Exercise represents a non-pharmacologic strategy in disease prevention and rehabilitation and may be an effective treatment with few to no side effects to counteract dysregulation of Tregs. To date, several studies have evaluated the effect of exercise on Treg-related outcomes. This review aims at providing a comprehensive overview on alterations of blood- or tissue-derived Treg counts, proportion and functionality following acute and chronic exercise in humans and animal models. From the 60 reviewed studies, an overall disease-specific beneficial effect of chronic exercise on Treg levels in animal models can be stated, while both acute and chronic effects in human studies are less definite. However, Treg phenotyping is less sufficient in the animal studies compared to human studies. Only a limited number of studies investigated Treg functionality. There is a large heterogeneity concerning study design, human population or animal model, exercise protocol, and Treg outcome measure specification which makes it difficult to compare results and draw clear conclusions. Study results are discussed in the context of current concepts in exercise immunology. Finally, future perspectives and methodological recommendations are provided to promote research in this field.
AB - Many of the exercise-related health-promoting effects are attributed to beneficial immunomodulation. The restoration of immune homeostasis is context-dependent, meaning either to increase anti-inflammatory signaling to counteract disease progression of non-communicable (auto)inflammatory diseases or to enhance (local) activity of proinflammatory immune cells to slow down or inhibit cancer progression. Regulatory CD4+ T cells (Tregs) represent the main regulatory component of the adaptive immune system that fine-tunes inflammatory responses, keeps them in check and prevents long-lasting autoimmunity. Because often dysregulated in the context of various diseases, emerging treatment approaches aim to modulate their number or inherent anti-inflammatory and immunosuppressive function in a highly disease-specific way. Exercise represents a non-pharmacologic strategy in disease prevention and rehabilitation and may be an effective treatment with few to no side effects to counteract dysregulation of Tregs. To date, several studies have evaluated the effect of exercise on Treg-related outcomes. This review aims at providing a comprehensive overview on alterations of blood- or tissue-derived Treg counts, proportion and functionality following acute and chronic exercise in humans and animal models. From the 60 reviewed studies, an overall disease-specific beneficial effect of chronic exercise on Treg levels in animal models can be stated, while both acute and chronic effects in human studies are less definite. However, Treg phenotyping is less sufficient in the animal studies compared to human studies. Only a limited number of studies investigated Treg functionality. There is a large heterogeneity concerning study design, human population or animal model, exercise protocol, and Treg outcome measure specification which makes it difficult to compare results and draw clear conclusions. Study results are discussed in the context of current concepts in exercise immunology. Finally, future perspectives and methodological recommendations are provided to promote research in this field.
KW - Animals
KW - Autoimmunity
KW - Exercise
KW - Homeostasis
KW - Humans
KW - Immunomodulation
KW - Signal Transduction
KW - T-Lymphocytes, Regulatory
M3 - Journal articles
C2 - 33965900
SN - 1077-5552
VL - 27
SP - 142
EP - 166
JO - Exercise immunology review
JF - Exercise immunology review
ER -