Mitochondrial dysfunction in CD4+ T effector memory RA+ cells
Mitochondrial dysfunction in CD4+ T effector memory RA+ cells
Human ageing is accompanied by poor responses to infection and decreased vaccine efficacy. While the causes of this can be attributed to defects in the immune system that increase with age, it is unknown whether mitochondrial dysfunction may also contribute to these phenomena. This study aims to assess mitochondrial dysfunction in CD4+ terminal effector memory T cells re-expressing CD45RA (TEMRA) cells and other CD4+ memory T cell subtypes, which are increased in number in the elderly population, with respect to how their metabolic responses to stimulation are altered compared to CD4+ naïve T cells. In this study, we show that CD4+ TEMRA cells exhibit altered mitochondrial dynamics compared to CD4+ naïve cells and CD4+ central and effector memory cells, with a 25% reduction in OPA1 expression. CD4+ TEMRA and memory cells show increased up-regulation of Glucose transporter 1 following stimulation and higher levels of mitochondrial mass compared to CD4+ naïve T cells. Additionally, TEMRA cells exhibit a decrease in mitochondrial membrane potential compared to other CD4+ memory cell subsets by up to 50%. By comparing young to aged individuals, more significant mitochondria mass and lower membrane potential were observed in CD4+ TEMRA of young individuals. In conclusion, we suggest that CD4+ TEMRA cells may be impaired with respect to their metabolic response to stimulation, possibly contributing to impaired responses to infection and vaccination.
metabolism1; T cells; terminally differentiated effector memory T cells (TEMRA); stimulation; flow cytometry, terminally differentiated effector memory T cells (TEMRA), flow cytometry, metabolism, T cells, stimulation
597
Strickland, Marie
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Lee, Salanne
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Neo, Shi-Yong
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Balachander, Akhila
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Low, Ivy
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Mustafah, Seri
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Ing, Go Wah
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Wright, Graham
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Larbi, Anis
ce48d2c4-7b17-4911-b729-9720bb4e5c4f
Pender, Sylvia L F
62528b03-ec42-41bb-80fe-48454c2c5242
14 April 2023
Strickland, Marie
b41f8585-f089-4712-9530-e2d239612e50
Lee, Salanne
79798aa6-57a5-445b-900c-d832b67fbffe
Neo, Shi-Yong
7374ebeb-a49b-4164-905a-3440b1671d72
Balachander, Akhila
422c8842-2111-4e35-abe7-6f330c942844
Low, Ivy
527dc744-c94a-4e52-ad79-eecfdb3db413
Mustafah, Seri
8b47c866-27dd-4cf7-9162-7772fe60f2d5
Ing, Go Wah
105beb3f-ff51-4cf4-904d-ff51b2c38aa6
Wright, Graham
74096e77-7d2c-4f08-bb57-66a1ab0c2907
Larbi, Anis
ce48d2c4-7b17-4911-b729-9720bb4e5c4f
Pender, Sylvia L F
62528b03-ec42-41bb-80fe-48454c2c5242
Strickland, Marie, Lee, Salanne, Neo, Shi-Yong, Balachander, Akhila, Low, Ivy, Mustafah, Seri, Ing, Go Wah, Wright, Graham, Larbi, Anis and Pender, Sylvia L F
(2023)
Mitochondrial dysfunction in CD4+ T effector memory RA+ cells.
Biology, 12 (4), , [597].
(doi:10.3390/biology12040597).
Abstract
Human ageing is accompanied by poor responses to infection and decreased vaccine efficacy. While the causes of this can be attributed to defects in the immune system that increase with age, it is unknown whether mitochondrial dysfunction may also contribute to these phenomena. This study aims to assess mitochondrial dysfunction in CD4+ terminal effector memory T cells re-expressing CD45RA (TEMRA) cells and other CD4+ memory T cell subtypes, which are increased in number in the elderly population, with respect to how their metabolic responses to stimulation are altered compared to CD4+ naïve T cells. In this study, we show that CD4+ TEMRA cells exhibit altered mitochondrial dynamics compared to CD4+ naïve cells and CD4+ central and effector memory cells, with a 25% reduction in OPA1 expression. CD4+ TEMRA and memory cells show increased up-regulation of Glucose transporter 1 following stimulation and higher levels of mitochondrial mass compared to CD4+ naïve T cells. Additionally, TEMRA cells exhibit a decrease in mitochondrial membrane potential compared to other CD4+ memory cell subsets by up to 50%. By comparing young to aged individuals, more significant mitochondria mass and lower membrane potential were observed in CD4+ TEMRA of young individuals. In conclusion, we suggest that CD4+ TEMRA cells may be impaired with respect to their metabolic response to stimulation, possibly contributing to impaired responses to infection and vaccination.
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Accepted/In Press date: 6 April 2023
Published date: 14 April 2023
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© 2023 by the authors.
Keywords:
metabolism1; T cells; terminally differentiated effector memory T cells (TEMRA); stimulation; flow cytometry, terminally differentiated effector memory T cells (TEMRA), flow cytometry, metabolism, T cells, stimulation
Identifiers
Local EPrints ID: 476537
URI: http://eprints.soton.ac.uk/id/eprint/476537
ISSN: 2079-7737
PURE UUID: 7ea560ba-a460-476b-8934-505f67820027
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Date deposited: 05 May 2023 16:34
Last modified: 17 Mar 2024 02:52
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Contributors
Author:
Marie Strickland
Author:
Salanne Lee
Author:
Shi-Yong Neo
Author:
Akhila Balachander
Author:
Ivy Low
Author:
Seri Mustafah
Author:
Go Wah Ing
Author:
Graham Wright
Author:
Anis Larbi
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