TY - JOUR
T1 - Extracellular Delivery of Functional Mitochondria Rescues the Dysfunction of CD4+ T Cells in Aging
AU - Headley, Colwyn A.
AU - Gautam, Shalini
AU - Olmo-Fontanez, Angelica
AU - Garcia-Vilanova, Andreu
AU - Dwivedi, Varun
AU - Akhter, Anwari
AU - Schami, Alyssa
AU - Chiem, Kevin
AU - Ault, Russell
AU - Zhang, Hao
AU - Cai, Hong
AU - Whigham, Alison
AU - Delgado, Jennifer
AU - Hicks, Amberlee
AU - Tsao, Philip S.
AU - Gelfond, Jonathan
AU - Martinez-Sobrido, Luis
AU - Wang, Yufeng
AU - Torrelles, Jordi B.
AU - Turner, Joanne
N1 - Publisher Copyright:
© 2023 The Authors. Advanced Science published by Wiley-VCH GmbH.
PY - 2024/2/2
Y1 - 2024/2/2
N2 - Mitochondrial dysfunction alters cellular metabolism, increases tissue oxidative stress, and may be principal to the dysregulated signaling and function of CD4+ T lymphocytes in the elderly. In this proof of principle study, it is investigated whether the transfer of functional mitochondria into CD4+ T cells that are isolated from old mice (aged CD4+ T cells), can abrogate aging-associated mitochondrial dysfunction, and improve the aged CD4+ T cell functionality. The results show that the delivery of exogenous mitochondria to aged non-activated CD4+ T cells led to significant mitochondrial proteome alterations highlighted by improved aerobic metabolism and decreased cellular mitoROS. Additionally, mito-transferred aged CD4+ T cells showed improvements in activation-induced TCR-signaling kinetics displaying markers of activation (CD25), increased IL-2 production, enhanced proliferation ex vivo. Importantly, immune deficient mouse models (RAG-KO) showed that adoptive transfer of mito-transferred naive aged CD4+ T cells, protected recipient mice from influenza A and Mycobacterium tuberculosis infections. These findings support mitochondria as targets of therapeutic intervention in aging.
AB - Mitochondrial dysfunction alters cellular metabolism, increases tissue oxidative stress, and may be principal to the dysregulated signaling and function of CD4+ T lymphocytes in the elderly. In this proof of principle study, it is investigated whether the transfer of functional mitochondria into CD4+ T cells that are isolated from old mice (aged CD4+ T cells), can abrogate aging-associated mitochondrial dysfunction, and improve the aged CD4+ T cell functionality. The results show that the delivery of exogenous mitochondria to aged non-activated CD4+ T cells led to significant mitochondrial proteome alterations highlighted by improved aerobic metabolism and decreased cellular mitoROS. Additionally, mito-transferred aged CD4+ T cells showed improvements in activation-induced TCR-signaling kinetics displaying markers of activation (CD25), increased IL-2 production, enhanced proliferation ex vivo. Importantly, immune deficient mouse models (RAG-KO) showed that adoptive transfer of mito-transferred naive aged CD4+ T cells, protected recipient mice from influenza A and Mycobacterium tuberculosis infections. These findings support mitochondria as targets of therapeutic intervention in aging.
KW - CD4 T cells
KW - adaptive immunity
KW - aging immunology
KW - immunometabolism
KW - mitochondrial dysfunction
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U2 - 10.1002/advs.202303664
DO - 10.1002/advs.202303664
M3 - Article
C2 - 37990641
AN - SCOPUS:85177546692
SN - 2198-3844
VL - 11
JO - Advanced Science
JF - Advanced Science
IS - 5
M1 - 2303664
ER -