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Single-cell transcriptomics of Treg reveals hallmarks and trajectories of immunological aging

Yi Yang, Jinyue Liao, Zhangjing Ma, Hung‐Fat Tse, Liwei Lu, Luís Graça, Kathy O. Lui

2023Journal of Leukocyte Biology16 citationsDOIOpen Access PDF

Abstract

Age-related immunosenescence is characterized by progressive dysfunction of adaptive immune response and increased autoimmunity. Nevertheless, the impact of aging on CD4+ regulatory T cells that are master regulators of the immune system remains largely unclear. Here, we report cellular and molecular hallmarks of regulatory T cells derived from murine lymphoid and adipose tissues at 3, 18, and 24 mo of age, respectively, by analyzing their heterogeneity that displays dynamic changes in transcriptomic effector signatures at a single-cell resolution. Although the proportion of regulatory T cells among total Cd4+ T cells, as well as their expression levels of Foxp3, did not show any global change with time, we have identified 6 transcriptomically distinct clusters of regulatory T cells with cross-tissue conserved hallmarks of aging, including increased numbers of proinflammatory regulatory T cells, reduced precursor cells, increased immature and mature T follicular regulatory cells potentially supported by a metabolic switch from oxidative phosphorylation to glycolysis, a gradual loss of CD150hi regulatory T cells that support hematopoiesis, and increased adipose tissue-specific regulatory T cells that are associated with metabolic disease. To dissect the impact of immunosenescence on humoral immunity, we propose some potential mechanisms underlying T follicular regulatory cell-mediated dysfunction by interactome analysis on T follicular regulatory cells, T follicular helper cells, and B cells during aging. Lastly, spatiotemporal analysis further revealed trajectories of regulatory T-cell aging that demonstrate the most significant changes in marrow and adipose tissues that might contribute to the development of age-related immunosenescence and type 2 diabetes. Taken together, our findings could provide a better understanding of age-associated regulatory T-cell heterogeneity in lymphoid and adipose tissues, as well as regulatory T-cell hallmarks during progressive adaptation to aging that could be therapeutically targeted for rejuvenating the aging immune system in the future.

Topics & Concepts

BiologyImmunosenescenceFOXP3Regulatory T cellImmune systemCell biologyTranscriptomeT cellImmunologyAcquired immune systemAdipose tissueIL-2 receptorEndocrinologyGeneticsGene expressionGeneImmune Cell Function and InteractionT-cell and B-cell ImmunologySingle-cell and spatial transcriptomics
Single-cell transcriptomics of Treg reveals hallmarks and trajectories of immunological aging | Litcius