Aging promotes reorganization of the CD4 T cell landscape toward extreme regulatory and effector phenotypes

Yehezqel Elyahu; Idan Hekselman; Inbal Eizenberg-Magar; Omer Berner; Itai Strominger; Maya Schiller; Kritika Mittal; Anna Nemirovsky; Ekaterina Eremenko; Assaf Vital; Eyal Simonovsky; Vered Chalifa-Caspi; Nir Friedman; Esti Yeger-Lotem; Alon Monsonego; Rai Strominger; Eya I. Si Monovsky

doi:10.1126/sciadv.aaw8330

Aging promotes reorganization of the CD4 T cell landscape toward extreme regulatory and effector phenotypes

Yehezqel Elyahu, Idan Hekselman, Inbal Eizenberg-Magar, Omer Berner, Itai Strominger, Maya Schiller, Kritika Mittal, Anna Nemirovsky, Ekaterina Eremenko, Assaf Vital, Eyal Simonovsky, Vered Chalifa-Caspi, Nir Friedman, Esti Yeger-Lotem, Alon Monsonego, Rai Strominger, Eya I. Si Monovsky

Ben-Gurion University of the Negev, Weizmann Institute of Science

Research output: Contribution to journal › Article › peer-review

Abstract

Age-associated changes in CD4 T-cell functionality have been linked to chronic inflammation and decreased immunity. However, a detailed characterization of CD4 T cell phenotypes that could explain these dysregulated functional properties is lacking. We used single-cell RNA sequencing and multidimensional protein analyses to profile thousands of CD4 T cells obtained from young and old mice. We found that the landscape of CD4 T cell subsets differs markedly between young and old mice, such that three cell subsets—exhausted, cytotoxic, and activated regulatory T cells (aT_regs)—appear rarely in young mice but gradually accumulate with age. Most unexpected were the extreme pro- and anti-inflammatory phenotypes of cytotoxic CD4 T cells and aT_regs, respectively. These findings provide a comprehensive view of the dynamic reorganization of the CD4 T cell milieu with age and illuminate dominant subsets associated with chronic inflammation and immunity decline, suggesting new therapeutic avenues for age-related diseases.

Original language	American English
Article number	eaaw8330
Number of pages	14
Journal	Science Advances
Volume	5
Issue number	8
DOIs	https://doi.org/10.1126/sciadv.aaw8330
State	Published - 21 Aug 2019

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Elyahu, Y., Hekselman, I., Eizenberg-Magar, I., Berner, O., Strominger, I., Schiller, M., Mittal, K., Nemirovsky, A., Eremenko, E., Vital, A., Simonovsky, E., Chalifa-Caspi, V., Friedman, N., Yeger-Lotem, E., Monsonego, A., Strominger, R., & Monovsky, E. I. S. (2019). Aging promotes reorganization of the CD4 T cell landscape toward extreme regulatory and effector phenotypes. Science Advances, 5(8), Article eaaw8330. https://doi.org/10.1126/sciadv.aaw8330

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title = "Aging promotes reorganization of the CD4 T cell landscape toward extreme regulatory and effector phenotypes",

abstract = "Age-associated changes in CD4 T-cell functionality have been linked to chronic inflammation and decreased immunity. However, a detailed characterization of CD4 T cell phenotypes that could explain these dysregulated functional properties is lacking. We used single-cell RNA sequencing and multidimensional protein analyses to profile thousands of CD4 T cells obtained from young and old mice. We found that the landscape of CD4 T cell subsets differs markedly between young and old mice, such that three cell subsets—exhausted, cytotoxic, and activated regulatory T cells (aTregs)—appear rarely in young mice but gradually accumulate with age. Most unexpected were the extreme pro- and anti-inflammatory phenotypes of cytotoxic CD4 T cells and aTregs, respectively. These findings provide a comprehensive view of the dynamic reorganization of the CD4 T cell milieu with age and illuminate dominant subsets associated with chronic inflammation and immunity decline, suggesting new therapeutic avenues for age-related diseases.",

author = "Yehezqel Elyahu and Idan Hekselman and Inbal Eizenberg-Magar and Omer Berner and Itai Strominger and Maya Schiller and Kritika Mittal and Anna Nemirovsky and Ekaterina Eremenko and Assaf Vital and Eyal Simonovsky and Vered Chalifa-Caspi and Nir Friedman and Esti Yeger-Lotem and Alon Monsonego and Rai Strominger and Monovsky, \{Eya I. Si\}",

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doi = "10.1126/sciadv.aaw8330",

language = "American English",

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Elyahu, Y, Hekselman, I, Eizenberg-Magar, I, Berner, O, Strominger, I, Schiller, M, Mittal, K, Nemirovsky, A, Eremenko, E, Vital, A, Simonovsky, E, Chalifa-Caspi, V, Friedman, N, Yeger-Lotem, E , Monsonego, A, Strominger, R & Monovsky, EIS 2019, 'Aging promotes reorganization of the CD4 T cell landscape toward extreme regulatory and effector phenotypes', Science Advances, vol. 5, no. 8, eaaw8330. https://doi.org/10.1126/sciadv.aaw8330

TY - JOUR

T1 - Aging promotes reorganization of the CD4 T cell landscape toward extreme regulatory and effector phenotypes

AU - Elyahu, Yehezqel

AU - Hekselman, Idan

AU - Eizenberg-Magar, Inbal

AU - Berner, Omer

AU - Strominger, Itai

AU - Schiller, Maya

AU - Mittal, Kritika

AU - Nemirovsky, Anna

AU - Eremenko, Ekaterina

AU - Vital, Assaf

AU - Simonovsky, Eyal

AU - Chalifa-Caspi, Vered

AU - Friedman, Nir

AU - Yeger-Lotem, Esti

AU - Monsonego, Alon

AU - Strominger, Rai

AU - Monovsky, Eya I. Si

PY - 2019/8/21

Y1 - 2019/8/21

N2 - Age-associated changes in CD4 T-cell functionality have been linked to chronic inflammation and decreased immunity. However, a detailed characterization of CD4 T cell phenotypes that could explain these dysregulated functional properties is lacking. We used single-cell RNA sequencing and multidimensional protein analyses to profile thousands of CD4 T cells obtained from young and old mice. We found that the landscape of CD4 T cell subsets differs markedly between young and old mice, such that three cell subsets—exhausted, cytotoxic, and activated regulatory T cells (aTregs)—appear rarely in young mice but gradually accumulate with age. Most unexpected were the extreme pro- and anti-inflammatory phenotypes of cytotoxic CD4 T cells and aTregs, respectively. These findings provide a comprehensive view of the dynamic reorganization of the CD4 T cell milieu with age and illuminate dominant subsets associated with chronic inflammation and immunity decline, suggesting new therapeutic avenues for age-related diseases.

AB - Age-associated changes in CD4 T-cell functionality have been linked to chronic inflammation and decreased immunity. However, a detailed characterization of CD4 T cell phenotypes that could explain these dysregulated functional properties is lacking. We used single-cell RNA sequencing and multidimensional protein analyses to profile thousands of CD4 T cells obtained from young and old mice. We found that the landscape of CD4 T cell subsets differs markedly between young and old mice, such that three cell subsets—exhausted, cytotoxic, and activated regulatory T cells (aTregs)—appear rarely in young mice but gradually accumulate with age. Most unexpected were the extreme pro- and anti-inflammatory phenotypes of cytotoxic CD4 T cells and aTregs, respectively. These findings provide a comprehensive view of the dynamic reorganization of the CD4 T cell milieu with age and illuminate dominant subsets associated with chronic inflammation and immunity decline, suggesting new therapeutic avenues for age-related diseases.

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SN - 2375-2548

VL - 5

JO - Science Advances

JF - Science Advances

IS - 8

M1 - eaaw8330

ER -

Aging promotes reorganization of the CD4 T cell landscape toward extreme regulatory and effector phenotypes

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