Concentric and Eccentric Endurance Exercise Reverse Hallmarks of T-Cell Senescence in Pre-diabetic Subjects

The peripheral T-cell pool undergoes a striking age associated remodeling which is accelerated by progressive insulin resistance. Exercise training is known to delay several aspects of T-cell senescence. The purpose of the current study was to investigate the effect of 3 weeks regular concentric or...

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Published in	Frontiers in physiology Vol. 10; p. 684
Main Authors	Philippe, Marc, Gatterer, Hannes, Burtscher, Martin, Weinberger, Birgit, Keller, Michael, Grubeck-Loebenstein, Beatrix, Fleckenstein, Johannes, Alack, Katharina, Krüger, Karsten
Format	Journal Article
Language	English
Published	Switzerland Frontiers Media S.A 04.06.2019
Subjects	concentric exercise eccentric exercise inflammation naïve T-cells Physiology TEMRA cells concentric exercise eccentric exercise TEMRA cells naïve T-cells inflammation
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Abstract	The peripheral T-cell pool undergoes a striking age associated remodeling which is accelerated by progressive insulin resistance. Exercise training is known to delay several aspects of T-cell senescence. The purpose of the current study was to investigate the effect of 3 weeks regular concentric or eccentric endurance exercise training on the composition of the T-cell compartment in pre-diabetic subjects. Sixteen male older adults with impaired glucose tolerance were recruited and performed either concentric exercise (CE) or eccentric exercise (EE) walking 3 times a week for 3 weeks. Fasting venous blood sampling was performed before training and after the training intervention. Various T-cell subpopulations were analyzed by flow cytometry. We did not find significant time × group effects (interaction) but found several significant time effects for cell type ratios and cell subsets proportions. There was an increase of the CD4 /CD8 (0.55 ± 0.85%; = 0.033) and CD4 /CD3 ratio (5.63 ± 8.44%; = 0.018) and a decrease of the CD8 /CD3 ratio (-0.95 ± 1.64%; = 0.049) after training. We found proportional increases of CD4 /CCR7 /CD45RO central memory cells (5.02 ± 7.68%; = 0.030), naïve CD8 /CCR7 /CD45RO (3.00 ± 6.68%; = 0.047) and CD8 /CCR7 /CD45RO central memory cells (3.01 ± 3.70%; = 0.009), while proportions of CD4 /CCR7 /CD45RO TEMRA cells (-2.17 ± 4.66%; = 0.012), CD8 /CCR7 /CD45RO TEMRA cells (-5.11 ± 7.02%; = 0.018) and CD16 cells (-4.67 ± 6.45%; = 0.016) decreased after training. 3 weeks of either CE or EE were effective in reversing hallmarks of T-cell senescence in pre-diabetic subjects. It is suggested that exercise stimulates production and mobilization of naïve T-cells, while differentiated TEMRA cells might disappear by apoptosis.
AbstractList	The peripheral T-cell pool undergoes a striking age associated remodeling which is accelerated by progressive insulin resistance. Exercise training is known to delay several aspects of T-cell senescence. The purpose of the current study was to investigate the effect of 3 weeks regular concentric or eccentric endurance exercise training on the composition of the T-cell compartment in pre-diabetic subjects. Sixteen male older adults with impaired glucose tolerance were recruited and performed either concentric exercise (CE) or eccentric exercise (EE) walking 3 times a week for 3 weeks. Fasting venous blood sampling was performed before training and after the training intervention. Various T-cell subpopulations were analyzed by flow cytometry. We did not find significant time × group effects (interaction) but found several significant time effects for cell type ratios and cell subsets proportions. There was an increase of the CD4 + /CD8 + (0.55 ± 0.85%; p = 0.033) and CD4 + /CD3 + ratio (5.63 ± 8.44%; p = 0.018) and a decrease of the CD8 + /CD3 + ratio (-0.95 ± 1.64%; p = 0.049) after training. We found proportional increases of CD4 + /CCR7 + /CD45RO + central memory cells (5.02 ± 7.68%; p = 0.030), naïve CD8 + /CCR7 + /CD45RO - (3.00 ± 6.68%; p = 0.047) and CD8 + /CCR7 + /CD45RO + central memory cells (3.01 ± 3.70%; p = 0.009), while proportions of CD4 + /CCR7 - /CD45RO - TEMRA cells (-2.17 ± 4.66%; p = 0.012), CD8 + /CCR7 - /CD45RO - TEMRA cells (-5.11 ± 7.02%; p = 0.018) and CD16 + cells (-4.67 ± 6.45%; p = 0.016) decreased after training. 3 weeks of either CE or EE were effective in reversing hallmarks of T-cell senescence in pre-diabetic subjects. It is suggested that exercise stimulates production and mobilization of naïve T-cells, while differentiated TEMRA cells might disappear by apoptosis. The peripheral T-cell pool undergoes a striking age associated remodeling which is accelerated by progressive insulin resistance. Exercise training is known to delay several aspects of T-cell senescence. The purpose of the current study was to investigate the effect of 3 weeks regular concentric or eccentric endurance exercise training on the composition of the T-cell compartment in pre-diabetic subjects. Sixteen male older adults with impaired glucose tolerance were recruited and performed either concentric exercise (CE) or eccentric exercise (EE) walking 3 times a week for 3 weeks. Fasting venous blood sampling was performed before training and after the training intervention. Various T-cell subpopulations were analyzed by flow cytometry. We did not find significant time × group effects (interaction) but found several significant time effects for cell type ratios and cell subsets proportions. There was an increase of the CD4+/CD8+ (0.55 ± 0.85%; p = 0.033) and CD4+/CD3+ ratio (5.63 ± 8.44%; p = 0.018) and a decrease of the CD8+/CD3+ ratio (-0.95 ± 1.64%; p = 0.049) after training. We found proportional increases of CD4+/CCR7+/CD45RO+ central memory cells (5.02 ± 7.68%; p = 0.030), naïve CD8+/CCR7+/CD45RO- (3.00 ± 6.68%; p = 0.047) and CD8+/CCR7+/CD45RO+ central memory cells (3.01 ± 3.70%; p = 0.009), while proportions of CD4+/CCR7-/CD45RO- TEMRA cells (-2.17 ± 4.66%; p = 0.012), CD8+/CCR7-/CD45RO- TEMRA cells (-5.11 ± 7.02%; p = 0.018) and CD16+ cells (-4.67 ± 6.45%; p = 0.016) decreased after training. 3 weeks of either CE or EE were effective in reversing hallmarks of T-cell senescence in pre-diabetic subjects. It is suggested that exercise stimulates production and mobilization of naïve T-cells, while differentiated TEMRA cells might disappear by apoptosis.The peripheral T-cell pool undergoes a striking age associated remodeling which is accelerated by progressive insulin resistance. Exercise training is known to delay several aspects of T-cell senescence. The purpose of the current study was to investigate the effect of 3 weeks regular concentric or eccentric endurance exercise training on the composition of the T-cell compartment in pre-diabetic subjects. Sixteen male older adults with impaired glucose tolerance were recruited and performed either concentric exercise (CE) or eccentric exercise (EE) walking 3 times a week for 3 weeks. Fasting venous blood sampling was performed before training and after the training intervention. Various T-cell subpopulations were analyzed by flow cytometry. We did not find significant time × group effects (interaction) but found several significant time effects for cell type ratios and cell subsets proportions. There was an increase of the CD4+/CD8+ (0.55 ± 0.85%; p = 0.033) and CD4+/CD3+ ratio (5.63 ± 8.44%; p = 0.018) and a decrease of the CD8+/CD3+ ratio (-0.95 ± 1.64%; p = 0.049) after training. We found proportional increases of CD4+/CCR7+/CD45RO+ central memory cells (5.02 ± 7.68%; p = 0.030), naïve CD8+/CCR7+/CD45RO- (3.00 ± 6.68%; p = 0.047) and CD8+/CCR7+/CD45RO+ central memory cells (3.01 ± 3.70%; p = 0.009), while proportions of CD4+/CCR7-/CD45RO- TEMRA cells (-2.17 ± 4.66%; p = 0.012), CD8+/CCR7-/CD45RO- TEMRA cells (-5.11 ± 7.02%; p = 0.018) and CD16+ cells (-4.67 ± 6.45%; p = 0.016) decreased after training. 3 weeks of either CE or EE were effective in reversing hallmarks of T-cell senescence in pre-diabetic subjects. It is suggested that exercise stimulates production and mobilization of naïve T-cells, while differentiated TEMRA cells might disappear by apoptosis. The peripheral T-cell pool undergoes a striking age associated remodeling which is accelerated by progressive insulin resistance. Exercise training is known to delay several aspects of T-cell senescence. The purpose of the current study was to investigate the effect of 3 weeks regular concentric or eccentric endurance exercise training on the composition of the T-cell compartment in pre-diabetic subjects. Sixteen male older adults with impaired glucose tolerance were recruited and performed either concentric exercise (CE) or eccentric exercise (EE) walking 3 times a week for 3 weeks. Fasting venous blood sampling was performed before training and after the training intervention. Various T-cell subpopulations were analyzed by flow cytometry. We did not find significant time × group effects (interaction) but found several significant time effects for cell type ratios and cell subsets proportions. There was an increase of the CD4+/CD8+ (0.55 ± 0.85%; p = 0.033) and CD4+/CD3+ ratio (5.63 ± 8.44%; p = 0.018) and a decrease of the CD8+/CD3+ ratio (-0.95 ± 1.64%; p = 0.049) after training. We found proportional increases of CD4+/CCR7+/CD45RO+ central memory cells (5.02 ± 7.68%; p = 0.030), naïve CD8+/CCR7+/CD45RO- (3.00 ± 6.68%; p = 0.047) and CD8+/CCR7+/CD45RO+ central memory cells (3.01 ± 3.70%; p = 0.009), while proportions of CD4+/CCR7-/CD45RO- TEMRA cells (-2.17 ± 4.66%; p = 0.012), CD8+/CCR7-/CD45RO- TEMRA cells (-5.11 ± 7.02%; p = 0.018) and CD16+ cells (-4.67 ± 6.45%; p = 0.016) decreased after training. 3 weeks of either CE or EE were effective in reversing hallmarks of T-cell senescence in pre-diabetic subjects. It is suggested that exercise stimulates production and mobilization of naïve T-cells, while differentiated TEMRA cells might disappear by apoptosis. The peripheral T-cell pool undergoes a striking age associated remodeling which is accelerated by progressive insulin resistance. Exercise training is known to delay several aspects of T-cell senescence. The purpose of the current study was to investigate the effect of 3 weeks regular concentric or eccentric endurance exercise training on the composition of the T-cell compartment in pre-diabetic subjects. Sixteen male older adults with impaired glucose tolerance were recruited and performed either concentric exercise (CE) or eccentric exercise (EE) walking 3 times a week for 3 weeks. Fasting venous blood sampling was performed before training and after the training intervention. Various T-cell subpopulations were analyzed by flow cytometry. We did not find significant time × group effects (interaction) but found several significant time effects for cell type ratios and cell subsets proportions. There was an increase of the CD4 /CD8 (0.55 ± 0.85%; = 0.033) and CD4 /CD3 ratio (5.63 ± 8.44%; = 0.018) and a decrease of the CD8 /CD3 ratio (-0.95 ± 1.64%; = 0.049) after training. We found proportional increases of CD4 /CCR7 /CD45RO central memory cells (5.02 ± 7.68%; = 0.030), naïve CD8 /CCR7 /CD45RO (3.00 ± 6.68%; = 0.047) and CD8 /CCR7 /CD45RO central memory cells (3.01 ± 3.70%; = 0.009), while proportions of CD4 /CCR7 /CD45RO TEMRA cells (-2.17 ± 4.66%; = 0.012), CD8 /CCR7 /CD45RO TEMRA cells (-5.11 ± 7.02%; = 0.018) and CD16 cells (-4.67 ± 6.45%; = 0.016) decreased after training. 3 weeks of either CE or EE were effective in reversing hallmarks of T-cell senescence in pre-diabetic subjects. It is suggested that exercise stimulates production and mobilization of naïve T-cells, while differentiated TEMRA cells might disappear by apoptosis.
Author	Weinberger, Birgit Keller, Michael Gatterer, Hannes Grubeck-Loebenstein, Beatrix Fleckenstein, Johannes Philippe, Marc Burtscher, Martin Alack, Katharina Krüger, Karsten
AuthorAffiliation	1 Department of Sports Medicine, Institute of Sports Sciences, Giessen University , Giessen , Germany 3 Department of Health Promotion and Prevention, Swiss Lung Association , St. Gallen , Switzerland 6 Department Exercise and Health, Institute of Sports Science, Leibniz University Hannover , Hanover , Germany 5 Institute for Biomedical Aging Research, University of Innsbruck , Innsbruck , Austria 4 Institute of Mountain Emergency Medicine, EURAC Research , Bozen , Italy 2 Department of Sport Science, Medical Section, University of Innsbruck , Innsbruck , Austria
AuthorAffiliation_xml	– name: 3 Department of Health Promotion and Prevention, Swiss Lung Association , St. Gallen , Switzerland – name: 1 Department of Sports Medicine, Institute of Sports Sciences, Giessen University , Giessen , Germany – name: 4 Institute of Mountain Emergency Medicine, EURAC Research , Bozen , Italy – name: 5 Institute for Biomedical Aging Research, University of Innsbruck , Innsbruck , Austria – name: 2 Department of Sport Science, Medical Section, University of Innsbruck , Innsbruck , Austria – name: 6 Department Exercise and Health, Institute of Sports Science, Leibniz University Hannover , Hanover , Germany
Author_xml	– sequence: 1 givenname: Marc surname: Philippe fullname: Philippe, Marc – sequence: 2 givenname: Hannes surname: Gatterer fullname: Gatterer, Hannes – sequence: 3 givenname: Martin surname: Burtscher fullname: Burtscher, Martin – sequence: 4 givenname: Birgit surname: Weinberger fullname: Weinberger, Birgit – sequence: 5 givenname: Michael surname: Keller fullname: Keller, Michael – sequence: 6 givenname: Beatrix surname: Grubeck-Loebenstein fullname: Grubeck-Loebenstein, Beatrix – sequence: 7 givenname: Johannes surname: Fleckenstein fullname: Fleckenstein, Johannes – sequence: 8 givenname: Katharina surname: Alack fullname: Alack, Katharina – sequence: 9 givenname: Karsten surname: Krüger fullname: Krüger, Karsten
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Copyright	Copyright © 2019 Philippe, Gatterer, Burtscher, Weinberger, Keller, Grubeck-Loebenstein, Fleckenstein, Alack and Krüger. 2019 Philippe, Gatterer, Burtscher, Weinberger, Keller, Grubeck-Loebenstein, Fleckenstein, Alack and Krüger
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Keywords	concentric exercise eccentric exercise TEMRA cells naïve T-cells inflammation
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Snippet	The peripheral T-cell pool undergoes a striking age associated remodeling which is accelerated by progressive insulin resistance. Exercise training is known to...
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SubjectTerms	concentric exercise eccentric exercise inflammation naïve T-cells Physiology TEMRA cells
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Title	Concentric and Eccentric Endurance Exercise Reverse Hallmarks of T-Cell Senescence in Pre-diabetic Subjects
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