Aging promotes acquisition of naive-like CD8+ memory T cell traits and enhanced functionalities
Jens Eberlein, Bennett Davenport, Tom Nguyen, Francisco Victorino, Kelsey Haist, Kevin Jhun, Anis Karimpour-Fard, Lawrence Hunter, Ross Kedl, Eric T. Clambey, Dirk Homann
Jens Eberlein, Bennett Davenport, Tom Nguyen, Francisco Victorino, Kelsey Haist, Kevin Jhun, Anis Karimpour-Fard, Lawrence Hunter, Ross Kedl, Eric T. Clambey, Dirk Homann
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Research Article Immunology

Aging promotes acquisition of naive-like CD8+ memory T cell traits and enhanced functionalities

Abstract

Protective T cell memory is an acquired trait that is contingent upon the preservation of its constituents and therefore vulnerable to the potentially deleterious effects of organismal aging. Here, however, we have found that long-term T cell memory in a natural murine host-pathogen system can substantially improve over time. Comprehensive molecular, phenotypic, and functional profiling of aging antiviral CD8+ memory T cells (CD8+ TM) revealed a pervasive remodeling process that promotes the gradual acquisition of distinct molecular signatures, of increasingly homogeneous phenotypes, and of diversified functionalities that combine to confer a CD8+ TM–autonomous capacity for enhanced recall responses and immune protection. Notably, the process of CD8+ TM aging is characterized by a progressive harmonization of memory and naive T cell traits, is broadly amenable to experimental acceleration or retardation, and serves as a constitutional component for the “rebound model” of memory T cell maturation. By casting CD8+ TM populations within the temporal framework of their slowly evolving properties, this model establishes a simple ontogenetic perspective on the principal organization of CD8+ T cell memory that may directly inform the development of improved diagnostic, prophylactic, and therapeutic modalities.

Authors

Jens Eberlein, Bennett Davenport, Tom Nguyen, Francisco Victorino, Kelsey Haist, Kevin Jhun, Anis Karimpour-Fard, Lawrence Hunter, Ross Kedl, Eric T. Clambey, Dirk Homann

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Figure 6

Evolving functionalities of aging antiviral CD8+ TM: cytokines, TNFSFs, chemokines.

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Evolving functionalities of aging antiviral CD8+ TM: cytokines, TNFSFs, ...
(A) Functional avidities (EC50 values) and response kinetics (ET50 values) were calculated by plotting the fraction of IFN-γ+ p14+ TM as a function of GP33 peptide concentration (5-hour stimulation) or stimulation time (10–6 M peptide) and nonlinear regression analysis. (BE) Temporal regulation of IFN-γ, TNFSF, cytokine, and chemokine mRNA (p14+ TE/M, microarray data, ex vivo) as well as protein expression (NP396-specific CD8+ TE/M, ex vivo [gray] and induced [black/red]); panels are organized in modules as detailed in Figure 4, dot plots are gated on NP396 peptide–stimulated CD8+ T cells. *P < 0.05, **P < 0.01, and ***P < 0.001 by 1-way ANOVA and asterisks indicate statistical differences between young (~days 42–65) and older CD8+ TM. Note that the amount of induced IFN-γ and CD40L content (geometric mean fluorescence intensity values) rather than percentage of IFN-γ– or CD40L-producing CD8+ TM increased with age; data generated with n ≥ 3 mice/group in multiple independent experiments.